US12068604B2
The present invention relates to an electrical power management device (300) capable of preventing or allowing the passage of current to a power grid (70). The present invention also relates to an electrical power management method (400). Particularly, the device (300) of the present invention is capable of performing electrical data telemetry and reporting it to a control center. The device (300) receives, from a power generation system (50), a source of alternating current through a power grid circuit (80), wherein the device (300) comprises: a control unit (10); a data transmission and reception module (20) configured to receive an external command signal; and at least one switching element (30a, 30b); the control unit (10) being adapted to actuate the at least one switching element (30a, 30b) so as to selectively open and close the power grid circuit (80) upon receipt of the external command signal to enable or prevent the passage of alternating current.
US12068600B2
A reconfigurable power circuit (400) includes a single one-way DC to DC power converter (220, 221). The reconfigurable power circuit is configurable by a digital data processor as one of three different power channels (230, 232, and 234). Power channel (230) provides output power conversion. Power channel (232) provides input power conversion. Power channel (234) provides bi-directional power exchange without power conversion.
US12068591B2
There is provided a utility junction box including a plurality of sidewalls forming a housing having an open bottom opening into an interior volume for receiving one or more utility lines from a first location, one or more apertures formed in at least one sidewall of the housing, a weather guard disposed on an exterior of the at least one sidewall having a downwardly sloping front face having formed therein one aperture corresponding to each of the one or more apertures formed in the at least one sidewall of the housing and disposed directly opposite therefrom. Each aperture formed in the sidewall of the housing is configured to allow a utility line to pass from within the interior volume of the housing through the aperture and direct the utility line through the corresponding aperture formed in the weather guard to a second location exterior to the utility junction box.
US12068587B2
Embodiments of the presently disclosed invention may enable electrical components and connections to be monitored within electrical distribution equipment cabinets having a blanking panel. Such an IR/UV-permitting panel may replace the pre-existing blanking panel in order to monitor the adjacent area having the targeted components and connections to be monitored. NFC tags may be utilized in connection with an IR/UV-permitting panel to enable data acquisition and management systems for the monitoring of electrical components in a cabinet.
US12068585B2
The present invention discloses a VCSEL array that is divided into at least a first and a second area. The first area covers the center of the array and is surrounded by the second area. The first area would experience higher temperature than the second area after the VCSELs in both areas are turned on for a given time period. VCSELs in the first area are electrically connected to a first metal layer portion. VCSELs in the second area are electrically connected to a second metal layer portion. The first and second metal layer portions are electrically insulated from each other.
US12068584B2
A semiconductor-fiber-laser assembly is provided that includes a pumping module, an active optical fiber and an assembling board. The active optical fiber is provided on an upper surface of the assembling board, the pumping module is provided on a surface of the assembling board that is the same as or opposite to the upper surface; and input-side and output-side optical-fiber gratings are provided at two ends of the active optical fiber, to form a laser resonator between the input-side and output-side optical-fiber gratings. The pumping module includes a plurality of semiconductor-laser single emitters, a collimating-lens group and a mirror group that are sequentially arranged, and light beams from the semiconductor-laser single emitters pass through the mirror group to realize beam combination.
US12068575B2
A laser device includes a substrate, a first waveguiding layer, an active layer, a second waveguiding layer, a contact layer, an insulating layer, a light-transmissive conducting layer, a first electrode, and a second electrode. The first waveguiding layer, the active layer, the second waveguiding layer, and the contact layer form an epitaxy structure having a first platform and a second platform. The first platform has multiple holes to form a photonic crystal structure. The insulating layer is over an upper surface and a sidewall surface of the first platform, and over an upper surface of the second platform. The sidewall surface passes through the contact layer, the second waveguiding layer, and the active layer. The light-transmissive conducting layer connects to the photonic crystal structure through an aperture of the insulating layer. The first electrode has an opening corresponding to the aperture. The second electrode is under the substrate.
US12068565B2
Electrical wiring devices that incorporate clamp-type wire terminal connections are described. The electrical wiring devices include for example, single and duplex blade-type electrical receptacles, blade-type locking electrical receptacles, single or multi-pole electrical switches, combination switches and blade-type receptacles, blade-type plugs for electrical cords and blade-type connectors for electrical cords. The electrical wiring devices include a plurality of contact assemblies. Each contact assembly includes a wire terminal and a plunger.
US12068558B2
A plug connector housing has receptacles for fastening at least two contact carriers. The plug connector housing has a substantially rectangular cross-section, having two opposite narrow sides and two opposite long sides. The receptacles are integrally formed on the interior within the plug connector housing. In each of the corner regions, a first receptacle is arranged. On each of the long sides, at least one second receptacle is arranged.
US12068557B2
A modular plug system including a plug housing including a top surface, bottom surface and two opposing side surfaces, a front end and an opening opposite the front end, and a cavity extending from the front end to the opening in the back end, a load bar sized to engage the cavity in the modular plug, the load bar including two extensions on an upper surface of the load bar, the extensions sized to engage two openings in the top surface of the plug housing when the load bar is inserted into the cavity.
US12068554B2
A dual-path signal interconnect is provided. The interconnect can include a first signal trace, first and second solder pads positioned above and connected to the first signal trace, and a third solder pad. The second solder pad separates from the first solder pad. The third solder pad separates from the second solder pad and is connected to a second signal trace. The first and second solder pads are to allow a pin of a connector to be soldered to the first and second solder pads, such that, when the pin of the external connector is soldered, high-speed electrical signals from the first signal trace are routed to the connector. The second and third solder pads are to allow a conductor to be soldered to the second and third solder pads, such that, when the conductor is soldered, the high-speed electrical signals are routed to the second signal trace.
US12068549B2
An electronic device is provided. The electronic device includes a housing, an antenna structure, a first conductive material, and a second conductive material. The housing may be configured to provide a front surface and a rear surface of the electronic device. The antenna structure includes a printed circuit board positioned in the housing. The printed circuit board includes a first surface configured to face the front surface or the rear surface and a second surface configured to face a direction opposite to the first surface. The printed circuit board includes a first conductive layer, a second conductive layer, and a dielectric. The first conductive layer includes a first antenna element and a second antenna element which are configured so as not to overlap each other when viewed from above the first surface.
US12068543B2
An antenna device includes a plurality of dipole antennas and a port. Each of the dipole antennas is connected to the port. The plurality of dipole antennas is arranged around the port. Each of the plurality of dipole antennas includes two ends. The ends of the dipole antennas are arranged in a plurality of pairs. Each pair includes one end of one of the dipole antennas and one end of another one of the dipole antennas. The two ends in each pair are arranged in proximity to each other. One or more switches are configured to switch between (1) an omnidirectional state, in which the ends of the dipole antennas are not connected to each other; and (2) a directional state, in which the two ends in each of one or more of the pairs are connected to each other.
US12068540B2
A reconfigurable, dual-band, MIMO antenna apparatus, a planar MIMO antenna system utilizing the antenna apparatus, and a method of transmitting and receiving a signal by the antenna apparatus are provided. The apparatus includes a dielectric planar substrate, a first element, a second element, two varactor diodes per element, and a microstrip feed-line. The first element and the second element each have slotted concentric annular rings. The second element is separated on the dielectric planar substrate from the first element, but is coplanar on the dielectric planar substrate with the first element. The two varactor diodes are placed in series with biasing circuitry, the biasing circuitry including RF chokes and current-limiting resistors. The microstrip feed-line feeds both antenna elements. The dual-band antenna elements can each be independently and concurrently tunable to two signal frequencies bands.
US12068502B2
Provided is a battery wiring module according to which a load that acts on module-side terminals accompanying expansion or contraction of battery cells can be reduced. A housing includes a wire accommodating portion for accommodating wires, multiple terminal accommodating portions for accommodating module-side terminals, and first elastic joining portions that join the wire accommodating portion and the terminal accommodating portions in an elastically-deformable manner in the direction in which the battery cells are aligned.
US12068495B2
A battery module includes: a plurality of secondary battery cells; and a housing unit having an internal space in which the plurality of secondary battery cells are accommodated and including a plate member extending a flame or gas path.
US12068490B2
A pouch-type secondary battery includes an electrode assembly including a first electrode plate, a separator, and a second electrode plate; and a pouch film in which the electrode assembly is accommodated, wherein the pouch film includes a first side sealing portion from which a negative electrode lead connected to the electrode assembly protrudes, a second side sealing portion from which a positive electrode lead connected to the electrode assembly protrudes, and an upper sealing portion having both end portions connected to the first and second side sealing portions, and the pouch film includes a folded portion disposed on an end of the first side sealing portion and an end of the second side sealing portion, and folded toward a bottom portion of the pouch film, wherein the folded portion is folded in one direction.
US12068483B2
An electrode binder composition for a rechargeable battery includes emulsion polymer particles comprising a1) first repeat units derived from conjugated diene monomers; one or more second repeat units selected from the group consisting of b1) repeat units derived from aromatic vinyl monomers, b2) repeat units derived from alkyl (meth)acrylate monomers, b3) repeat units derived from (meth)acryl amide monomers, b4) repeat units derived from nitrile based monomers, and b5) repeat units derived from unsaturated carbonic acid monomers; and c1) third repeat units derived from monomers represented by the following Chemical Formula 1: wherein R1 is hydrogen, or a C1-10 alkyl group, X is hydrogen or a methyl group, Y is oxygen atom, or —NR2-, R2 is hydrogen, or a C1-10 alkyl group, and Z is a C1-10 alkyl group.
US12068479B2
The purpose of the present invention is to provide a winding-type nonaqueous electrolyte secondary battery which is capable of minimizing degradation of charge-discharge cycle characteristics. The winding-type nonaqueous electrolyte secondary battery according to an embodiment of the present invention is provide with a negative electrode that has a negative electrode current collector, an inner-circumference-side negative electrode mixture layer which is disposed, of the two surfaces of the negative electrode current collector, on the inner-circumference-side surface, and an outer-circumference-side negative electrode mixture layer disposed on the outer-circumference-side surface, wherein the inner-circumference-side negative electrode mixture layer and the outer-circumference-side negative electrode mixture layer each include a negative electrode active material and carbon nanotubes, and the carbon nanotubes in the outer-circumference-side negative electrode mixture layer have an average fiber length of 5-30 um, which is longer than that of the carbon nanotubes in inner-circumference-side negative electrode mixture layer.
US12068474B2
A battery electrode composition is provided that comprises composite particles. Each of the composite particles in the composition (which may represent all or a portion of a larger composition) may comprise a porous electrode particle and a filler material. The porous electrode particle may comprise active material provided to store and release ions during battery operation. The filler material may occupy at least a portion of the pores of the electrode particle. The filler material may be liquid and not substantially conductive with respect to electron transport.
US12068459B2
A failed battery cell handling method, a battery module, a battery pack, and a device, which relates to the technical field of energy devices. The handling method includes: injecting a conductive material into a failed battery cell, where the conductive material is in a molten state when being injected, and is in a solid state after cooling, and the conductive material is configured to electrically connect a positive terminal and a negative terminal of the failed battery cell.
US12068454B2
Provided is an electrolyte of a lithium-sulfur battery. The electrolyte of the lithium-sulfur battery may include: a base electrolyte including lithium salt and an organic solvent; and an electrolyte additive, in which the electrolyte additive includes a metal nitrate.
US12068432B2
Provided is a display device including a light emitting unit that can emit a plurality of types of light having different wavelengths to the outside at a desired ratio with high intensity without increasing manufacturing costs in proportion to a number of pixels even when the number of pixels increases. Provided is a display device including a light emitting unit in which a plurality of types of PiN junction-type light emitting diodes that emit light having different wavelengths are arranged on the same substrate, and at least one type among the plurality of types of light emitting diodes has an active layer containing a rare earth element. Provided is a display device in which a plurality of types of light emitting diodes are sequentially stacked on the surface of a substrate, and a light emitting layer for one color is formed to overlap at least a portion of a light emitting layer for another color.
US12068425B2
The present disclosure relates to a photovoltaic (PV) device that includes a first junction constructed with a first alloy and having a bandgap between about 1.0 eV and about 1.5 eV, and a second junction constructed with a second alloy and having a bandgap between about 0.9 eV and about 1.3 eV, where the first alloy includes III-V elements, the second alloy includes III-V elements, and the PV device is configured to operate in a thermophotovoltaic system having an operating temperature between about 1500° C. and about 3000° C.
US12068422B2
In accordance with at least one aspect of this disclosure, a thermal management system for an electronics assembly includes, a reservoir housing a compressible fluid in a compressed state, a throttling orifice disposed in fluid communication with the reservoir and configured to expand the compressible fluid, cooling the compressible fluid, and a heat exchange volume in fluid communication with the throttling orifice to receive cooled compressible fluid from the throttling orifice.
US12068414B2
A method for reducing stress induced defects in heterogeneous epitaxial interfaces of a semiconductor device is disclosed. The method includes forming a fin structure with a fin base, a superlattice structure on the fin base, forming a polysilicon gate structure on the fin structure, forming a source/drain (S/D) opening within a portion of the fin structure uncovered by the polysilicon gate structure, modifying the first surfaces of the first layers to curve a profile of the first surfaces, depositing first, second, and third passivation layers on the first, second, and third surfaces, respectively, forming an epitaxial S/D region within the S/D opening, and replacing the polysilicon gate structure with a metal gate structure. The superlattice structure includes first and second layers with first and second lattice constants, respectively, and the first and second lattice constants are different from each other.
US12068394B2
A semiconductor device includes a substrate, a fin structure protruding from the substrate, a gate insulating layer covering a channel region formed of the fin structure, a gate electrode layer covering the gate insulating layer, and isolation layers disposed on opposite sides of the fin structure. The fin structure includes a bottom portion, a neck portion, and a top portion sequentially disposed on the substrate. A width of the neck portion is less than a width of the bottom portion and a width of a portion of the top portion.
US12068393B2
A method includes forming a dummy gate stack, forming a dielectric layer, with the dummy gate stack located in the dielectric layer, removing the dummy gate stack to form a opening in the dielectric layer, forming a metal layer extending into the opening, and etching back the metal layer. The remaining portions of the metal layer in the opening have edges lower than a top surface of the dielectric layer. A conductive layer is selectively deposited in the opening. The conductive layer is over the metal layer, and the metal layer and the conductive layer in combination form a replacement gate.
US12068385B2
In some implementations, fluorine is oxidized after dry etching an oxide layer above a source/drain contact and before cleaning. Accordingly, less hydrofluoric acid is formed during cleaning, which reduces unexpected wet etching of the source/drain contact. This allows for forming a recess in the source/drain contact with a depth to width ratio in a range from approximately 1.0 to approximately 1.4 and prevents damage to a layer of silicide below the source/drain that can be caused by excessive hydrofluoric acid. Additionally, or alternatively, the recess is formed using multiple wet etch processes, and any residual fluorine is oxidized between the wet etch processes. Accordingly, each wet etching process may be shorter and less corrosive, which allows for greater control over dimensions of the recess. Additionally, less hydrofluoric acid may be formed during cleaning processes between the wet etch processes, which reduces the etching of the source/drain contact between processes.
US12068361B2
Provided are a semiconductor structure and a method for preparing the same. The method for preparing a semiconductor structure includes: a substrate is provided; a stacked structure is formed on the substrate; a first capacitor having a first bottom electrode, a first dielectric layer and a first top electrode is formed in the stacked structure, in which the first bottom electrode is of a columnar structure; and a second capacitor having a second bottom electrode, a second dielectric layer and a second top electrode is formed on the first capacitor, in which the second bottom electrode is of a concave structure. The second dielectric layer is formed between the second bottom electrode and the second top electrode, and the second dielectric layer is further formed between the second bottom electrodes of adjacent second capacitors.
US12068348B2
An image sensor package includes a substrate and an image sensor on the substrate. An adhesive film is on the image sensor. A transparent cover is on the adhesive film. The transparent cover includes a top surface, a first side surface and a second side surface disposed on the first side surface. The second side surface is inclined with respect to an extending direction of a bottom surface of the transparent cover. A mold layer covers an upper surface of the substrate, a side surface of the image sensor, a side surface of the adhesive film, the first side surface of the transparent cover and a partial portion of the second side surface of the transparent cover. A top surface of the mold layer is higher than a lower end of the second side surface and lower than the top surface of the transparent cover.
US12068346B2
There is provided a solid-state imaging device including a substrate having a surface over which a plurality of photodiodes are formed, and a protection film that is transparent, has a water-proofing property, and includes a side wall part vertical to the surface of the substrate and a ceiling part covering a region surrounded by the side wall part, the side wall part and the ceiling part surrounding a region where the plurality of photodiodes are arranged over the substrate.
US12068343B2
An image sensing device is provided to include a plurality of unit pixel regions arranged in a first direction and a second direction, a first device isolation region structured to isolate the plurality of unit pixel regions from each other, a plurality of photoelectric conversion regions in the substrate to form a plurality of imaging pixels structured to generate photocharges, a plurality of second device isolation regions configured to define active regions of the plurality of imaging pixels, a plurality of floating diffusion regions formed in a first active region to store the photocharges, and a plurality of transfer gates structured to transmit the photocharges. The floating diffusion region is located contiguous to the transfer gate in the first direction and the second direction and is structured to surround a plurality of side surfaces of a corresponding transfer gate.
US12068341B2
A unit pixel arranged along with a display pixel in each pixel of a display panel is provided. The unit pixel may include a thin-film transistor (TFT) photodetector including an active layer formed of amorphous silicon or polycrystalline silicon on an amorphous transparent substrate, and at least one transistor electrically coupled to the TFT photodetector and configured to generate a voltage output from photocurrent generated from the active layer.
US12068328B2
A display panel and a display device are provided. By manufacturing a first via hole and a second via hole first, and then manufacturing a third via hole and a fourth via hole, the first via hole and the second via hole have been covered by a corresponding first drain electrode and first source electrode before performing hydrofluoric acid cleaning processes, and a first drain region and a first source region of a first oxide transistor are not affected by the hydrofluoric acid cleaning process, thereby allowing an oxide channel of the first oxide transistor to also be prevented from being affected.
US12068325B2
A vertical field effect transistor (VFET) cell implementing a VFET circuit over a plurality of gate grids includes: a 1st circuit including at least one VFET and provided over at least one gate grid; and a 2nd circuit including at least one VFET and provided over at least one gate grid formed on a left or right side of the 1st circuit, wherein a gate of the VFET of the 1st circuit is configured to share a gate signal or a source/drain signal of the VFET of the 2nd circuit, and the 1st circuit is an (X−1)-contacted poly pitch (CPP) circuit, which is (X−1) CPP wide, converted from an X-CPP circuit which is X CPP wide and performs a same logic function as the (X−1)-CPP circuit, X being an integer greater than 1.
US12068324B2
A semiconductor device package is described that includes a power consuming device (such as an SOC device). The power consuming device may include one or more current consuming elements. A passive device may be coupled to the power consuming device. The passive device may include a plurality of passive elements formed on a semiconductor substrate. The passive elements may be arranged in an array of structures on the semiconductor substrate. The power consuming device and the passive device may be coupled using one or more terminals. The passive device and power consuming device coupling may be configured in such a way that the power consuming device determines functionally the way the passive device elements will be used.
US12068320B2
Gate isolation techniques disclosed herein form gate isolation fins to isolate metal gates of multigate devices from one another before forming the multigate devices, and in particular, before forming the metal gates of the multigate devices. An exemplary device includes a first multigate device having first source/drain features and a first metal gate that surrounds a first channel layer and a second multigate device having second source/drain features and a second metal gate that surrounds a second channel layer. A gate isolation fin, which separates the first metal gate and the second metal gate, includes a dielectric feature having a first dielectric layer having a first dielectric constant (e.g., a low-k dielectric core) and a second dielectric layer (e.g., a high-k dielectric shell) surrounding the first dielectric layer. The second dielectric layer has a second dielectric constant that is greater than the first dielectric constant.
US12068317B2
An integrated circuit die includes a FinFET transistor. The FinFET transistor includes an anti-punch through region below a channel region. Undesirable dopants are removed from the anti-punch through region during formation of the source and drain regions. When source and drain recesses are formed, a layer of dielectric material is deposited in the recesses. An annealing process is then performed. Undesirable dopants diffuse from the anti-punch through region into the layer of dielectric material during the annealing process. The layer of dielectric material is then removed. The source and drain regions are then formed by depositing semiconductor material in the recesses.
US12068315B2
A semiconductor device is provided. The semiconductor device includes a substrate including a first dummy region and a second dummy region spaced apart from the first dummy region; a device isolation layer filling a trench between the first dummy region and the second dummy region; a first dummy electrode provided on the first dummy region; a second dummy electrode provided on the second dummy region; a power line extending from the first dummy region to the second dummy region, the power line including an expanded portion provided on the device isolation layer, a width of the expanded portion being larger than a line width of a remaining portion of the power line; a power delivery network provided on a bottom surface of the substrate; and a through via extending through the substrate and the device isolation layer, and electrically connecting the power delivery network to the expanded portion. The through via and the expanded portion vertically overlap.
US12068313B2
A semiconductor arrangement and method of forming the same are described. A semiconductor arrangement includes a first gate structure on a first side of an active area and a second gate structure on a second side of the active area, where the first gate structure and the second gate structure share the active area. A method of forming the semiconductor arrangement includes forming a deep implant of the active area before forming the first gate structure, and then forming a shallow implant of the active area. Forming the deep implant prior to forming the first gate structure alleviates the need for an etching process that degrades the first gate structure. The first gate structure thus has a desired configuration and is able to be formed closer to other gate structures to enhance device density.
US12068306B2
An integrated circuit (IC) device includes a substrate having opposite first and second sides, an active region over the first side of the substrate, a first transistor and a second transistor over the first side of the substrate, a first conductive pattern over the first side of the substrate, and a second conductive pattern under the second side of the substrate. The first conductive pattern electrically couples a first terminal of the first transistor to a second terminal of the second transistor. The second conductive pattern electrically couples the first terminal of the first transistor to the second terminal of the second transistor.
US12068303B2
Provided are a package structure and a method of forming the same. The method includes providing a first package having a plurality of first dies and a plurality of second dies therein; performing a first sawing process to cut the first package into a plurality of second packages, wherein one of the plurality of second packages comprises three first dies and one second die; and performing a second sawing process to remove the second die of the one of the plurality of second packages, so that a cut second package is formed into a polygonal structure with the number of nodes greater than or equal to 5.
US12068300B2
A chip-on-wafer-on-substrate (CoWoS) semiconductor assembly is formed which includes a chip-on-wafer (CoW) sub-assembly of integrated circuit (IC) dies mounted on an interposer, which is in turn mounted on a package substrate with a top metallization stack and a bottom metallization stack using bonding bumps connecting the backside of the interposer and the front side of the package substrate. The bonding bumps provide electrical connections between the ends of through-vias exposed at the backside of the interposer and the top metallization stack of the package substrate. The likelihood of certain failure mechanisms that can adversely affect CoWoS yield are reduced or eliminated by ensuring a total metal thickness of the top metallization stack is greater than a total metal thickness of the bottom metallization stack, but not so much greater as to induce cracking of the underfill material during curing thereof.
US12068295B2
A method includes bonding a capacitor die to a device die. The device die includes a first semiconductor substrate, active devices at a surface of the first semiconductor substrate, a plurality of low-k dielectric layers, a first dielectric layer over and contacting a top low-k dielectric layer in the plurality of low-k dielectric layers, and a first plurality of bond pads in the first dielectric layer. The capacitor die includes a second dielectric layer bonding to the first dielectric layer, a second plurality of bond pads in the second dielectric layer and bonding to the first plurality of bond pads, and a capacitor electrically coupled to the second plurality of bond pads. After the capacitor die is bonded to the device die, an aluminum-containing pad is formed over the capacitor die and electrically coupled to the device die. A polymer layer is formed over the aluminum-containing pad.
US12068293B2
A display includes a plurality of blue, green and red light emitting micro-LEDs having respective blue, green and red emission spectra having respective emission peaks at respective wavelengths with respective full width at half maxima (FWHMs). A partial light transmitting layer is disposed on the plurality of blue, green and red light emitting micro-LEDs and includes substantially distinct blue, green and red transmission bands with respective blue, green and red FWHMs. For substantially normally incident light, the partial light transmitting layer has an optical transmittance of greater than about 50% at each of the blue, green and red peak wavelengths. The blue, green and red FWHMs of the partial light transmitting layer are less than the respective blue, green and red FWHMs of the blue, green and red light emitting micro-LEDs by at least 10%.
US12068285B2
A stacked die structure includes a base die, a top die and conductive terminals electrically connected to the top die. The base die includes a base semiconductor substrate, a base interconnection layer disposed on the base semiconductor substrate, and a base bonding layer disposed on the base interconnection layer. The top die is stacked on the base die and electrically connected to the base die, wherein the top die includes a top bonding layer, a top semiconductor substrate, a top interconnection layer, top conductive pads and top grounding vias. The top bonding layer is hybrid bonded to the base bonding layer. The top interconnection layer is disposed on the top semiconductor substrate and includes a dielectric layer, conductive layers embedded in the dielectric layer, and conductive vias joining the conductive layers. The conductive pads and top grounding vias are embedded in the dielectric layer and disposed on the conductive layers.
US12068280B2
There is provided a semiconductor device including a first electrode including a first plate portion, the first plate portion including a first surface and a second surface facing the first surface, a plurality of semiconductor chips provided above the second surface, and a second electrode including a second plate portion provided above the semiconductor chips, the second plate portion including a third surface facing the second surface and a fourth surface facing the third surface, the second plate portion including a plurality of protrusion portions provided between the semiconductor chips and the third surface, the protrusion portions being connected to the third surface, each of the protrusion portions including a top surface including the same shape as a shape of each of the semiconductor chips in a plane parallel to the second surface, the second plate portion including a second outer diameter larger than a first diameter of a smallest circle circumscribing the protrusion portions provided on an outermost side among the protrusion portions in a plane parallel to the third surface, and a third plate portion including a fifth surface connected to the fourth surface and a sixth surface facing the fifth surface, the third plate portion including a third outer diameter equal to or smaller than the first diameter.
US12068279B2
A dipole alignment device includes an electric field forming part including a stage, and a probe part which form an electric field on the stage; an inkjet printing apparatus including at least one inkjet head which sprays ink including dipoles and a solvent with the dipoles dispersed therein onto the stage; a transportation part comprising a first moving part which moves the electric field forming part in at least one direction; and a light irradiation apparatus including a light irradiation part which applies light to the ink sprayed onto the stage.
US12068274B2
A semiconductor device includes a first carrier, a first external contact, a second external contact, and a first semiconductor die. The first semiconductor die has a first main face, a second main face opposite to the first main face, a first contact pad disposed on the first main face, a second contact pad disposed on the second main face, a third contact pad disposed on the second main face, and a vertical transistor. The first semiconductor die is disposed with the first main face on the first carrier. A clip connects the second contact pad and the second external contact. A first wire is connected with the first external contact. The first wire is disposed at least partially under the clip.
US12068267B2
A method for manufacturing a semiconductor device is provided, including: preparing a first chip forming portion having a first semiconductor substrate, first metal pads provided at the substrate and a first circuit electrically connected to at least a part of the pads, and a second chip forming portion having a second semiconductor substrate, second metal pads provided at substrate and a second circuit electrically connected to at least a part of the pads; bonding the first and the second chip forming portions while joining the first and the second pads to form a bonding substrate having a non-bonded region between the first and the second chip forming portions at an outer peripheral portion thereof; and filling an insulating film into the non-bonded region, at least a part of the insulating film containing at least one selected from the group consisting of silicon nitride and nitrogen-containing silicon carbide.
US12068266B2
An interconnect layer for an integrated circuit device includes a low radio frequency (RF) loss primary coating that forms a main portion of the interconnect layer, an opening formed in the primary coating, a high aspect ratio patternable secondary coating within the opening, and a via formed in the secondary coating. An aspect ratio of the via is greater than an aspect ratio of the opening.
US12068255B2
A memory array comprising strings of memory cells comprises laterally-spaced memory blocks individually comprising a vertical stack comprising alternating insulative tiers and conductive tiers above a conductor tier. Strings of memory cells comprise channel-material strings that extend through the insulative tiers and the conductive tiers. The channel-material strings directly electrically couple with conductor material of the conductor tier by conducting material that is in a lowest of the conductive tiers and that is directly against multiple of the channel-material strings. The channel-material strings in the laterally-spaced memory blocks comprise part of a memory plane. A wall in the lowest conductive tier is aside the conducting material. The wall is in a region that is edge-of-plane relative to the memory plane. The edge-of-plane region comprises a TAV region. The wall is horizontally-elongated relative to an edge of the TAV region that is in the edge-of-plane region. Other memory arrays and methods are disclosed.
US12068244B2
A semiconductor device includes a substrate, a first stacked film and a second stacked film each including insulating layers and electrode layers alternately provided on the substrate, and columnar portions provided in the insulating layers and electrode layers of the first stacked film, and including charge storage layers and semiconductor layers. The second stacked film further includes an insulator including first and second lower faces, the first lower face is inclined by a first angle to an upper face of one of the electrode layers in the first stacked film, the second lower face is inclined by a second angle to the upper face of the one of the electrode layers in the first stacked film, and the second angle is less than the first angle. The insulating layers and electrode layers in the second stacked film are provided below the first and second lower faces of the insulator.
US12068243B2
A semiconductor storage device includes a first wiring layer, a first insulating layer on the first wiring layer, a second wiring layer on the first insulating layer, a second insulating layer on the second wiring layer, a third wiring layer on the second insulating layer, and a first pillar that passes through the first, second, and third wiring layers and the first and second insulating layers along a first direction and includes a first semiconductor layer. A first distance between side surfaces of the first wiring layer and the first insulating layer facing the first pillar is greater than a second distance between side surfaces of the second wiring layer and the second insulating layer facing the first pillar and a third distance between the side surfaces of the second insulating layer and the third wiring layer facing the first pillar.
US12068238B2
A metal oxide metal (MOM) capacitor and methods for fabricating the same are disclosed. The MOM capacitor includes a first metal layer having a first plurality of fingers, each of the first plurality of fingers configured to have alternating polarities. A high resistance (Hi-R) conductor layer is disposed adjacent the first metal layer in a plane parallel to the first metal layer.
US12068237B2
An apparatus including; a substrate; an isolator that is formed over the substrate, the isolator including a silicon shield layer that is formed between a first buried oxide (BOX) layer and a second BOX layer; a silicon layer having an oxide trench structure formed therein, the oxide trench structure being arranged to define a first silicon island and a second silicon island; a first electronic circuit that is formed over the first silicon island; and a second electronic circuit that is formed over the second silicon island, the first electronic circuit being electrically coupled to the first electronic circuit.
US12068236B2
An electronic module includes a wiring board including a lower surface on which a second electrode pad including a bonding surface is located, a lead electrically connected to the second electrode pad with solder therebetween, and a sealer to seal the lead. The lead includes an exposed section exposed to outside the sealer and a main body section extending from the exposed section toward the wiring board and including a tip end portion near the wiring board. The tip end portion is connected to the second electrode pad with the solder therebetween. A thickness of the solder between a tip end surface of the tip end portion and the bonding surface of the second electrode pad in a direction orthogonal or substantially orthogonal to the bonding surface is non-uniform.
US12068215B2
Exemplary embodiments provide thermal wear spreading among a plurality of thermal die regions in an integrated circuit or among dies by using die region wear-out data that represents a cumulative amount of time each of a number of thermal die regions in one or more dies has spent at a particular temperature level. In one example, die region wear-out data is stored in persistent memory and is accrued over a life of each respective thermal region so that a long term monitoring of temperature levels in the various die regions is used to spread thermal wear among the thermal die regions. In one example, spreading thermal wear is done by controlling task execution such as thread execution among one or more processing cores, dies and/or data access operations for a memory.
US12068212B2
A package structure and a method of manufacturing the same are provided. The package structure includes a die, an encapsulant, a first redistribution line (RDL) structure, a second RDL structure, a conductive terminal, and a through via. The encapsulant laterally encapsulates the die. The first redistribution line (RDL) structure on a first side of the die and the encapsulant, wherein the first RDL structure comprises a dielectric layer and a redistribution layer in the dielectric layer. The second RDL structure is located on a second side of the die and the encapsulant. The conductive terminal is connected to the redistribution layer. The through via extends through the encapsulant and the redistribution layer to contact the conductive terminal and the second RDL structure.
US12068208B2
A method of controlling plasma includes providing a plasma processing apparatus that includes N microwave introducing radiators disposed in a circumferential direction of a ceiling plate of a processing container so as to introduce microwaves for generating plasma into the processing container, wherein N≥2; and M sensors and configured to monitor at least one of electron density Ne and electron temperature Te of the plasma generated in the processing container, wherein M equals to N or a multiple of N. The method further includes controlling at least one of a power and a phase of the microwaves introduced from the microwave introducing radiators based on at least one of electron density Ne and electron temperature Te of the plasma monitored by the M sensors.
US12068204B2
A method of fabricating a fin-like field effect transistor (FinFET) device includes providing a semiconductor substrate having a region for forming p-type metal-oxide-semiconductor (PMOS) devices and a region for forming n-type metal-oxide-semiconductor (PMOS) devices, forming fin structures in both regions of the substrate separated by isolation features, first forming source/drain (S/D) features in the PMOS region, and subsequently forming S/D features in the NMOS region. First forming the PMOS S/D features and then forming the NMOS S/D features results in a greater extent of loss of isolation features in the PMOS region than in the NMOS region.
US12068201B2
In an embodiment, a method includes: forming a first fin extending from a substrate; forming a second fin extending from the substrate, the second fin being spaced apart from the first fin by a first distance; forming a metal gate stack over the first fin and the second fin; depositing a first inter-layer dielectric over the metal gate stack; and forming a gate contact extending through the first inter-layer dielectric to physically contact the metal gate stack, the gate contact being laterally disposed between the first fin and the second fin, the gate contact being spaced apart from the first fin by a second distance, where the second distance is less than a second predetermined threshold when the first distance is greater than or equal to a first predetermined threshold.
US12068198B2
To provide a semiconductor device with less variations, a first insulator is deposited; a stack of first and a second oxides and a first conductor is formed over the first insulator; a second insulator is formed over the first insulator and the stack; an opening is formed in the second insulator; a top surface of the second oxide is exposed by removing a region of the first conductor, second and third conductors are formed over the second oxide, and then cleaning treatment is performed; a first oxide film is deposited in contact with a side surface of the first oxide and top and side surfaces of the second oxide; heat treatment is performed on an interface between the second oxide and the first oxide film through the first oxide film; and the second insulator is exposed and a fourth conductor, a third insulator, and a third oxide are formed in the opening.
US12068187B2
A 3D semiconductor device, the device including: a first level including a first single crystal layer, the first level including first transistors, where each of the first transistors includes a single crystal channel; first metal layer; a second metal layer overlaying the first metal layer; and a second level including a second single crystal layer, the second level including second transistors and at least one third metal layer, where the second level overlays the first level, where at least one of the second transistors includes a transistor channel, where the second level includes a plurality of DRAM memory cells, where each of the plurality of DRAM memory cells includes at least one of the second transistors and one capacitor, where the second level is directly bonded to the first level, and where the bonded includes metal to metal bonds.
US12068177B2
Apparatus, systems, and methods for processing workpieces are provided. In one example, such a method for performing a spike anneal rapid thermal process may include controlling a heat source to begin heating a workpiece supported on a workpiece support in a processing chamber. The method may further include receiving data indicative of a temperature of the workpiece. Furthermore, the method may include monitoring the temperature of the workpiece relative to a temperature setpoint. Moreover, the method may include controlling the heat source to stop heating the workpiece based at least in part on the workpiece reaching the temperature setpoint. Additionally, the method may include controlling a cooling system to begin flowing a cooling gas at a rate of about 300 slm or greater over the workpiece based at least in part on the workpiece reaching the temperature setpoint to reduce a t50 peak width of the workpiece.
US12068172B2
Embodiments disclosed herein include electronic packages and methods of making electronic packages. In an embodiment, the electronic package comprises a package substrate, an array of first level interconnect (FLI) bumps on the package substrate, wherein each FLI bump comprises a surface finish, a first pad on the package substrate, wherein the first pad comprises the surface finish, and wherein a first FLI bump of the array of FLI bumps is electrically coupled to the first pad, and a second pad on the package substrate, wherein the second pad is electrically coupled to the first pad.
US12068170B2
Embodiments disclosed herein include methods of developing a metal oxo photoresist. In an embodiment, the method comprises providing a substrate with the metal oxo photoresist into a vacuum chamber, where the metal oxo photoresist comprises exposed regions and unexposed regions. In an embodiment, the unexposed regions comprise a higher carbon concentration than the exposed regions. The method may further comprise vaporizing a halogenating agent into the vacuum chamber, where the halogenating agent reacts with either the unexposed regions or the exposed regions to produce a volatile byproduct. In an embodiment, the method may further comprise purging the vacuum chamber.
US12068168B2
A method includes forming an etching mask to cover a mandrel, a first spacer, and a second spacer, and the first spacer and the second spacer are in contact with opposing sidewalls of the mandrel. The etching mask is then patterned, and includes a first portion covering the first spacer, a second portion covering the second spacer, and a bridge portion connecting the first portion to the second portion. The bridge portion has first sidewalls. A first etching process is performed on the mandrel using the etching mask to define pattern, and after the first etching process, the mandrel includes a second bridge portion having second sidewalls vertically aligned to corresponding ones of the first sidewalls. After the mandrel is etched-through, a second etching process is performed to laterally recess the second bridge portion of the mandrel.
US12068166B2
A method for manufacturing a semiconductor device includes the steps of forming a fixing layer, coupling a third substrate different from the first substrate and the second substrate to the fixing layer, separating the semiconductor thin film layer from the first substrate by moving the third substrate away from the base material substrate with the third substrate coupled to the coupling region, and bonding the semiconductor thin film layer to the second substrate after separation from the base material substrate, wherein the forming the fixing layer forms the fixing layer having a thickness such that a crack is generated between the fixing layer formed on the first substrate and the fixing layer formed on a side surface of the semiconductor thin film layer by a force for moving the third substrate.
US12068163B2
A method for forming a semiconductor structure in provided. The method includes providing a substrate, forming a gate electrode layer on the substrate, and performing a defluorination treatment on the gate electrode layer. The method also includes, after performing the defluorination treatment, forming a barrier layer on a portion of a surface of the gate electrode layer. The barrier layer is made of a material including titanium element.
US12068158B2
Embodiment relates to a method for fabricating a semiconductor structure. The method includes: forming a first pattern on the first region and forming a second pattern on the second region, wherein the first pattern includes a plurality of first sub-patterns, a first gap is provided between adjacent two of the plurality of first sub-patterns, a width of the first gap is a first pitch, and wherein the second pattern includes a plurality of second sub-patterns, a second gap is provided between adjacent two of the plurality of second sub-patterns, a width of the second gap is a second pitch, and the second pitch is greater than the first pitch; forming a first mask layer on a sidewall of the first pattern, and forming a second mask layer on a sidewall of the second pattern; and removing the first pattern and the second pattern.
US12068154B2
Methods and systems for forming a forming a nitrogen-containing carbon film and structures formed using the methods or systems are disclosed. Exemplary methods include providing a precursor with carbon-terminated carbon-nitrogen bonds. The methods can further include providing a reactant to the reaction chamber.
US12068153B2
Embodiments disclosed herein include a method for cleaning a bevel area of a substrate support disposed within a plasma processing chamber. In one example the method begins by placing a cover substrate on a substrate support disposed in an interior volume of a processing chamber. A cleaning gas is provided into the interior volume of the processing chamber. A plasma is struck in the interior volume of the processing chamber. A cleaning gas is provided through the substrate support to a bevel edge area defined between an outer diameter of the cover substrate and an edge ring disposed on the substrate support.
US12068145B2
A liquid sample introduction system for a plasma spectrometer includes a sample container for holding a liquid sample, a surface acoustic wave (SAW) nebulizer, arranged to receive a liquid sample from the sample container, an electronic controller for supplying electrical power to the SAW nebulizer so as to produce a surface acoustic wave on a surface of the SAW nebulizer, for generating an aerosol from the supplied sample liquid, and an aerosol transport arrangement for receiving the aerosol from the SAW nebulizer and carrying it into a plasma or flame of a spectrometer. The electronic controller is further configured to control the electrical power to the SAW nebulizer so as to permit adjustment of the aerosol parameters, and to control the aerosol transport arrangement so as to permit adjustment of the aerosol delivery into the plasma or flame of the spectrometer.
US12068125B2
The present disclosure relates to a semiconductor circuit breaker, and more specifically, to a semiconductor circuit breaker provided with a detachable interface module. The semiconductor circuit breaker, according to one embodiment of the present disclosure, comprises: a circuit breaker main body connected to a main circuit and provided with a module receiving unit on the outer surface thereof; and an interface module provided independently from the circuit breaker main body and detachably coupled to the module receiving unit. The circuit breaker main body comprises: a terminal cover rotatably coupled to a terminal unit of the circuit breaker main body; and an interlock member provided to the circuit breaker main body and restricting or releasing the opening of the terminal cover. The interface module comprises an interlock driving unit for operating the interlock member.
US12068124B2
A protection element (10) of the present invention has a substrate (11), a first fuse element (12) and a second fuse element (13) connected in series on the substrate (11), a heater (14) connected between the first fuse element (12) and the second fuse element (13), a third upper electrode part (17) connected between the first fuse element (12) and the second fuse element (13) and connected to the heater (14) in series, a first conduction part (18) connected to the third upper electrode part (17) and having a lower resistance value than the heater (14), and a third lower electrode part (19) connected to the first conduction part (18) and configured to be connectable to an external protection circuit.
US12068120B2
A method of assembly for a switch within a user interface for a home appliance includes housing a circuit board within the user interface. The circuit board has at least one mechanically actuated switch having a first area. An input interface of the user interface has a button defining a second area, greater than the first area, and having an actuator corresponding to the switch. The button is coupled to at least one of the circuit board or the input interface for relative movement between an actuation position, where the actuator actuates the switch, and a non-actuation position, where the actuator does not actuate the switch.
US12068116B2
A multilayer ceramic capacitor includes a ceramic element body including ceramic layers and internal electrode layers, and a pair of external electrodes on both end surfaces of the ceramic element body so as to be electrically connected to the internal electrode layers. Each of the external electrodes includes a base electrode layer and a resin external electrode layer stacked on the base electrode layer. The resin external electrode layer includes a thermosetting resin and a metal powder and amine, isocyanate, epoxy, mercapto, and/or ureido silane coupling agents.
US12068110B2
A multilayer electronic component includes a body including first and second surfaces opposing each other in a first direction, third and fourth surfaces connected to the first and second surfaces and opposing each other in a second direction, and fifth and sixth surfaces connected to the first to fourth surfaces and opposing each other in a third direction and including a dielectric layer and internal electrodes alternately disposed with the dielectric layer interposed therebetween in the first direction, and external electrodes disposed on the third and fourth surfaces, wherein the external electrodes include an electrode layer disposed on the body and a conductive resin layer disposed on the electrode layer, and the conductive resin layer includes a conductive metal, an epoxy resin, and an acrylic resin.
US12068107B2
A solenoid contains a yoke, a bobbin having an electromagnetic coil disposed inside the yoke, and an iron core disposed inside the bobbin. In the solenoid, a connector part incorporating a prescribed number of terminal metal fittings is provided on one end portion of the bobbin.
US12068103B2
A connection sleeve connects two wire end portions adjacent to each other in an axial direction of a center axis, among wire end portions of flat-type wires that constitute each of a plurality of disc-shaped windings. A through hole allows the flat-type wire to be inserted from both sides. A pair of pressed portions sandwich the flat-type wire inserted in the through hole therebetween. At least one of a pair of end portions has a slit that divides an end surface when viewed from the direction in which a pair of end portions are aligned.
US12068100B2
An electronic package comprises an integrated circuit (IC) configured to receive a power input signal and to deliver a regulated power output signal. A multilayer electrical routing structure is attached to the IC and is configured to couple the electronic package to an external circuit. The multilayer routing structure has one or more electrical conductors on each of at least two layers which are configured to route the power input signal from the external circuit to the IC and to route the regulated power output signal from the IC to the external circuit. The one or more electrical conductors form an integrated inductive device having a respective portion disposed on each of the at least two layers and the power output signal is coupled to the external circuit through the integrated inductive device.
US12068099B2
In a coil component, a first planar coil and a second planar coil are wound around a common magnetic core and are magnetically coupled to each other. However, the first planar coil and the second planar coil are not electrically connected to each other and form coil structures which are separate from each other. Thus, as compared with a case in which the first planar coil and the second planar coil form one coil structure, the first planar coil and the second planar coil are less likely to affect each other's characteristics.
US12068097B2
A laminated core according to an aspect of the present invention includes a plurality of electrical steel sheets stacked to each other; and a plurality of adhesion parts that are provided between the electrical steel sheets adjacent to each other in a stacking direction and adhere the electrical steel sheets to each other, in which, when viewed in the stacking direction, the plurality of adhesion parts are formed in a belt shape that extends in a first direction, the plurality of adhesion parts are arranged in a second direction orthogonal to the first direction, and an angle formed by the first direction and a rolling direction of the electrical steel sheet is 30° or more and 90° or less.
US12068095B2
Embodiments of the present invention comprise; annealing steel sheets (e.g., hot rolled steel sheets or thin cast strip steel); cold rolling the sheets in one or more cold rolling steps (e.g., with annealing steps between multiple cold rolling steps); and performing one or more of tension leveling, a rough rolling, or a coating process on the sheets after cold rolling, without an intermediate annealing step between the final cold rolling step and the tension leveling, the rough rolling, or the coating process, or the customer stamping or final customer annealing. In order to achieve the desired properties for the steel sheet, stamping and final annealing is performed by the customer. The new process provides an electrical steel with the similar, same, or better magnetic properties than an electrical steel manufactured using the traditional processing that utilizes an intermediate annealing step after cold rolling and before the stamping and final annealing.
US12068089B2
Described is a plug-in bushing, a manufacturing method of same, and a high-voltage installation, more specifically, to a plug-in high-voltage bushing for connecting an external electrical conductor to a high-voltage installation filled with an insulating body, and to a high-voltage installation comprising the bushing. The plug-in bushing comprises: a conducting body; a resin insulating body surrounding the conducting body; an electric field-control electrode made of a semi-conducting synthetic resin material, coupled to an upper end of a lower support fitting; the lower support fitting connected to the outer circumference of a lower part of the resin insulating body; and injected insulating body produced by an insert injection including the outer circumference of the resin insulating body and electric field-control electrode, having formed thereon a plurality of fins; and a stress cone connected to a lower end of the resin insulating body.
US12068085B2
A system is described that exhibits the functionality of a beam-splitter, typically an optical device that splits a beam of light in two. In this case, the beams are acoustic pulses and can lead to the creation of a Wannier-Mott exciton: a bound state of an electron and an electron hole whose attraction to each other is maintained by the electrostatic Coulomb force. This exciton beam-splitter is lossy (i.e., involves the dissipation of electrical or electromagnetic energy). Half of the time the exciton is radiated away. Nevertheless, if the exciton is not lost, the exciton is now in a superposition of two states that can be well separated in position. Four such beam-splitters can be used to make an exciton interferometer that uses the interference patterns from the interacting acoustic pulses to extract information.
US12068084B2
The known fully ceramic microencapsulated fuel (FCM) entrains fission products within a primary encapsulation that is the consolidated within a secondary ultra-high-temperature-ceramic of Silicon Carbide (SiC). In this way the potential for fission product release to the environment is significantly limited. In order to extend the performance of this fuel to higher temperature and more aggressive coolant environments, such as the hot-hydrogen of proposed nuclear rockets, a zirconium carbide matrix version of the FCM fuel has been invented. In addition to the novel nature to this very high temperature fuel, the ability to form these fragile TRISO microencapsulations within fully dense ZrC represent a significant achievement.
US12068083B2
The present inventive concept provides a method for manufacturing a multi-layered nuclear fuel cladding pipe, comprising the steps of: providing a preliminary cladding pipe in which an inner pipe having a rod-shaped insertion body inserted thereinto is disposed in an outer pipe; reducing the diameter of the preliminary cladding pipe by applying pressure from the outside to the inner side of the preliminary cladding pipe; and removing the insertion body from the inner pipe by providing a force in the direction in which the insertion body extends, wherein the inner pipe and the outer pipe may be formed of different metals from each other.
US12068074B2
A stereoscopic marker device includes: a polyhedral cube, including at least four flat surfaces, wherein the at least four flat surfaces are used as one primary marker and at least three secondary markers respectively, the primary marker includes a primary graphic code, the three secondary markers individually include a first secondary graphic code, a second secondary graphic code, and a third secondary graphic code, and the primary graphic code is used for providing spatial coordinate information, which is used for calculating six degrees of freedom (DOF) attitude data; and a spike-shaped body, combined with the polyhedral cube and configured to be fixed on a surgery site.
US12068073B1
Systems and methods for credentialing and privileging are disclosed. The system may include at least one processor and at least one memory storing one or more non-transitory computer-executable instructions. The at least one processor may implement a method including the step of receiving from a healthcare practitioner a form request to receive a dynamic privilege form in one or more privilege categories for one or more facilities. The method may include generating a dynamic privilege form including one or more healthcare privileges and one or more facilities for selection by the healthcare practitioner based on the form request. The method may include sending the dynamic privilege form to the healthcare practitioner. The method may include receiving from the healthcare practitioner the dynamic privilege form including requested healthcare privileges from the one or more healthcare privileges and requested facilities from the one or more facilities.
US12068068B2
A computing system may generate a composite video stream from multiple input feeds. The computing system may obtain a surgical video stream and overlay content associated with a surgical procedure. The computing system may determine the overlay region location for overlaying the overlay content by analyzing the content of surgical video stream. For example, based on the content of a frame of the surgical video stream, the computing system may determine an overlay region location in the frame for overlaying the overlay content; based on the content of a subsequent frame of the surgical video stream, the computing system may determine another overlay region location in the subsequent frame for overlaying the overlay content. The composite video stream may be generated based on the overlay region locations determined for different frames of the surgical video stream.
US12068066B2
A system and method for generating an addiction nourishment program includes a computing device, the computing device configured to obtain an addiction element, produce an addiction signature as a function of the addiction element, wherein producing further comprises identifying a predictive signal as a function of an addiction directory, and producing the addiction signature as a function of the predictive signal and addiction element using a predictive machine-learning model, identify a physiological impact as a function of the addiction signature, wherein identifying a physiological impact further comprises receiving a medical influence and identifying the physiological impact as a function of the medical influence and addiction signature using a physiological machine-learning model, determine an edible as a function of the physiological impact, and generate a nourishment program as a function of the edible.
US12068061B2
Systems, devices, user interfaces, and methods for managing patient conditions. A system for monitoring and/or managing a patient suffering from a brain condition may include a controller obtaining and/or storing data related to one or more monitored patient parameters contributing to the brain condition of the patient and displaying values of the one or more monitored patient parameters in trend lines over time on a user interface. The displayed trend lines may represent values of ventricular CSF volume, values of IVH volume, total ventricular volume in the brain, and/or values of other suitable parameters. The data related to the one or more monitored patient parameters may include images of the patient's brain and/or data derived from images of the patient's brain and/or suitable patient data.
US12068058B2
Embodiments of the present invention avoid the processing problems associated with using conventional computer systems for identifying and characterizing all of the substructures (e.g., metabolites) of large complex molecules by using a defined minimum cleavable unit (MCU) and an MCU graph for a chosen molecule, as well as a “cut vertex” in the MCU graph for the chosen molecule. The system splits the MCU graph of the chosen molecule at the specified cut vertex to produce two separate MCU graph components (i.e., a first MCU subgraph and a second MCU subgraph) of the chosen molecule, and generates and traverses a first line graph component and a second line graph component, respectively, for the two MCU subgraph components with a graph traversing algorithm to generate and store in memory a first database of substructures and molecular weights for the first component, and a second database of substructures and molecular weights for the second line graph component. Subsequently, embodiments of the present invention can perform binary searches on the two databases (or the two subsections of a single database) to identify and produce graphic representations of all of the substructures of the chosen molecule that have molecular weights that match the query molecular weight (or range of query molecular weights), including the substructures of the chosen molecule that straddle (i.e., include) the cut vertex.
US12068055B2
Exemplary methods, apparatuses, and systems include an environmental operations manager for controlling memory access of the memory device. The environmental operations manager receives a set of data bits for programming to a memory location. The environmental operations manager receives environmental condition data. The environmental operations manager delays programming of the set of data bits to the memory location and writing the set of data bits to a buffer location in response to determining that the environmental condition data satisfies a threshold.
US12068050B2
A method can include detecting, by a glitch detector coupled via a connection matrix to a first processing unit, an indication of a glitch on a memory system. The method can include notifying, via the connection matrix, at least a second processing unit of the detected indication of the glitch. The method can include subsequent to notifying at least the second processing unit, transmitting via the at least the second processing unit a glitch confirmation signal.
US12068045B2
A semiconductor memory device includes a memory cell array circuit and a driving force adjustment circuit. The memory cell array circuit includes a plurality of memory cells. The driving force adjustment circuit adjusts driving forces of a plurality of respective verify pass voltages based on whether or not the plurality of memory cells are programmed.
US12068043B2
According to one embodiment, a semiconductor memory device includes: first and second circuit units, a driver circuit, an input/output pad, first and second power supply pads, and first and second interconnects. The first interconnect is configured to provide coupling between the first circuit unit and the first power supply pad. The second interconnect is configured to provide coupling between the second circuit unit and the first power supply pad and have no electrical coupling to the first interconnect.
US12068042B2
A multi time program device with a power switch and a non-volatile memory implementing the power switch for multi time program is provided. The device performs a program operation or an erase operation of a non-volatile memory cell in a non-volatile memory device.
US12068039B2
Provided herein may be a memory device and a method of operating the same. The memory device may include a memory block including a plurality of memory cells that are coupled to a plurality of word lines, a peripheral circuit configured to perform a read operation by applying a read voltage to a selected word line, among the plurality of word lines, and applying a first pass voltage to target word lines, wherein the target word lines are adjacent to the selected word line, among unselected word lines other than the selected word line, and a control logic configured to decrease the read voltage based on a read voltage variation and to decrease the first pass voltage based on a pass voltage variation when the read voltage decreases, wherein the pass voltage variation is less than the read voltage variation.
US12068031B2
A semiconductor storage device includes a memory cell array including a plurality of word line groups and a plurality of blocks corresponding to the plurality of word line groups. Each of word line groups includes a plurality of word lines and each of the blocks includes a plurality of memory cells. The plurality of memory cells of each block are connected to the respective word lines of a corresponding one of the word line groups. The semiconductor storage device includes a row decoder including a plurality of word line group decoders corresponding to the plurality of word line groups, respectively. Each of the plurality of word line group decoders is configured to drive a word line independent from a word line driven in another of the word line groups, when all of the plurality of word line groups are activated in parallel.
US12068027B2
A fin field-effect transistor (FinFET) based semiconductor memory array having a plurality of memory cells, each memory cell including a write transistor having a write wordline gate over a first fin connected to a write wordline gate contact, a write bitline contact in connection with the first fin, and a storage node contact in connection with the first fin, and a read transistor having a storage node gate over a second fin, the storage node gate connected to a storage node gate contact, the storage node gate contact connected to the storage node contact, a read wordline contact in connection with the second fin, and a read bitline contact in connection with the second fin, wherein the write wordline gate and the storage node gate are arranged in series to each other along an extension axis that coincides with an longitudinal axis of the write wordline gate and a longitudinal axis of the storage node gate.
US12068026B2
A method of memory reset includes precharging bit lines of a memory array, asserting a signal at a reset node to remove the precharge voltage, and selecting write drivers associated with the bit lines associated with columns of the memory array that contain memory cells to be reset, with the assertion of the signal at the reset node also resulting in application of desired logic states to inputs of the selected write drivers to cause those selected write drivers to change a logic state of the bit lines associated with those write drivers. The method continues with asserting each word line associated with a row of the memory that contains memory cells to be reset to write desired logic states to all of the memory cells of the columns and rows of the memory to be reset during a single clock cycle, and then deasserting those word lines.
US12068025B2
Various implementations described herein are directed to a device having memory with banks of bitcells with each bank having a bitcell array. The device may have header circuitry that powers-up a selected bank and powers-down unselected banks during a wake-up mode of operation. In some instances, only the selected bank of the memory is powered-up with the header circuitry during the wake-up mode of operation.
US12068022B2
An integrated circuit includes: first and second pattern generation circuits generating first and second pattern signal for a sampling section; a first section control part generating a coarse section signal for a first section of the sampling section, according to the first pattern signal; a first filter part generating a first section extract signal by filtering the second pattern signal according to the coarse section signal; a second section control part generating a fine section signal for a second section of the sampling section, according to the first section extract signal; a second filter part generating a second section extract signal by filtering the second pattern signal according to the fine section signal; an output control circuit generating a sampling enable signal according to the first and second section extract signals; and a sampling circuit suitable for sampling an input signal according to the sampling enable signal.
US12068009B2
According to one embodiment, a magnetic recording device includes a magnetic recording medium group and a magnetic head group. The magnetic recording medium group includes a first magnetic recording medium, a plurality of second magnetic recording media, and a plurality of third magnetic recording media. The magnetic head group includes a first magnetic head, a plurality of second magnetic heads, and a plurality of third magnetic heads. The first magnetic head is configured to record data on the first magnetic recording medium by a first method. One of the plurality of second magnetic heads is configured to record data on one of the plurality of second magnetic recording media by a second method different from the first method. One of the plurality of third magnetic heads is configured to record data on one of the plurality of third magnetic recording media by the second method.
US12068008B2
A STRAMR structure is disclosed. The STRAMR structure can include a spin torque oscillator (STO) device in a WG provided between the mail pole (MP) trailing side and a trailing shield. The STO device, includes: a flux guiding layer that has a negative spin polarization (nFGL) with a magnetization pointing substantially parallel to the WG field without the current bias and formed between a first spin polarization preserving layer (ppL1) and a second spin polarization preserving layer (ppL2); a positive spin polarization (pSP) layer that adjoins the TS bottom surface; a non-spin polarization preserving layer (pxL) contacting the MP trailing side; a first negative spin injection layer (nSIL1) between the ppL2 and a third spin polarization preserving layer (ppL3); and a second negative spin injection layer (nSIL2) between the ppL3 and the pxL, wherein the nFGL, nSIL1, and nSIL2 have a spin polarization that is negative.
US12068000B2
In various example embodiments, a system and method for determining a crowd response for a crowd are presented. One method is disclosed that includes receiving an audio signal that includes concurrent responses from two or more respondents, determining the concurrent responses from the audio signal without regard to the identity of the respondents, and generating a crowd based on the concurrent responses.
US12067995B2
An apparatus for determining a predetermined characteristic related to an artificial bandwidth limitation processing of an audio signal has a slope evaluator configured for evaluating a slope of a spectrum of the audio signal to obtain a slope evaluation result. The apparatus has a frequency evaluator configured for evaluating a cut-off frequency of the spectrum of the audio signal to obtain a frequency evaluation result, and has a processor for providing an information indicating that the audio signal has the predetermined characteristic dependent on an evaluation of the slope evaluation result and an evaluation of the frequency evaluation result.
US12067987B2
The present disclosure discloses a method and device of generating acoustic features, speech model training, and speech recognition. By acquiring the acoustic information vector of the current speech frame and the information weight of the current speech frame, and according to the accumulated information weight corresponding to the previous speech frame, the retention rate corresponding to the current speech frame, and the information weight of the current speech frame, the accumulated information weight corresponding to the current speech frame can be obtained. The retention rate is the difference between 1 and a leakage rate.
US12067974B2
A wearable device collects a fingerprint pattern input by a user and speech input by the user. The wearable device sends the fingerprint pattern to an electronic device, to enable the electronic device to perform authentication on the fingerprint pattern input by a user. The wearable device sends the speech to the electronic device, and, upon a determination that the authentication succeeds, the electronic device is enabled to execute a function corresponding to the speech.
US12067969B2
A method for estimating an embedding capacity includes receiving, at a deterministic reference encoder, a reference audio signal, and determining a reference embedding corresponding to the reference audio signal, the reference embedding having a corresponding embedding dimensionality. The method also includes measuring a first reconstruction loss as a function of the corresponding embedding dimensionality of the reference embedding and obtaining a variational embedding from a variational posterior. The variational embedding has a corresponding embedding dimensionality and a specified capacity. The method also includes measuring a second reconstruction loss as a function of the corresponding embedding dimensionality of the variational embedding and estimating a capacity of the reference embedding by comparing the first measured reconstruction loss for the reference embedding relative to the second measured reconstruction loss for the variational embedding having the specified capacity.
US12067964B2
Noise cancellation systems and methods are provided that receive a reference signal representative of a noise to be reduced and provide a noise cancellation signal based upon the reference signal. Some examples include a feedback signal representative of a residual noise in the environment. At least one of the reference signal, the noise cancellation signal, or the feedback signal is filtered to remove components based upon a rotational rate of a rotating equipment associated with the environment, such as an engine of a vehicle. Accordingly, the noise cancellation system may not interfere with sounds related to the engine.
US12067962B2
Systems and methods for dewatering slurries having relatively high solids content such as earthen slurries are disclosed. In some embodiments, one or more transducer devices configured for acoustic spectroscopy and/or electroacoustic spectroscopy are used to determine a parameter related to the particle size distribution (e.g., specific surfaced area) and/or zeta potential of the slurry.
US12067954B2
Display driver, semiconductor device, and amplifier circuit having a response-speed increase circuit
A voltage generation unit includes first to k-th amplifiers that individually receiving first to k-th reference voltages having mutually different voltage values, individually amplify these reference voltages with gain 1, and output the reference voltages. The generation unit generates plural gradation voltages by dividing voltages between respective voltages output from the first to k-th amplifiers. A decoder unit selects one gradation voltage corresponding to the luminance level represented by the pixel data piece among the gradation voltages and generates a signal having the one gradation voltage as the drive signal for driving a display device. Each amplifier includes a response-speed increase circuit that includes at least one transistor in which a source and a back gate are connected to an output terminal of the amplifier, a predetermined electric potential is applied to a drain, and the reference voltage received by the amplifier is received at a gate.
US12067947B2
A display apparatus includes a substrate including a trench portion, a display area, and a non-display area. The non-display area includes a first non-display area. The display area includes a main area and first and second display areas protruding from the main area. The first non-display area and the trench portion are between the first and second display areas. The display apparatus further includes: first scan lines transmitting scan signals to pixels in the first display area; second scan lines transmitting scan signals to pixels in the second display area; connection scan lines in the first non-display area and connecting the first scan lines and the second scan lines; and driving voltage lines transmitting driving voltages to pixels in the main area. A plurality of first driving voltage lines among the driving voltage lines extend to the first non-display area, and overlap the plurality of connection scan lines.
US12067939B2
A pixel circuit, a method for controlling a pixel circuit, an array substrate, and a display panel are provided. Based on the structural improvement of the pixel circuit, when the light-emitting control signal is maintained at a high level, turning on a driving transistor by changing a Vgate signal from a high level to a low level, to complete a reset initialization of the driving transistor; and compensating a turn-on voltage of the driving transistor by changing a Vdata signal from a low level to a high level.
US12067929B2
Disclosed are a display panel and a display device. By setting at least two image capturing regions and providing at least two image capturing components corresponding to the at least two image capturing regions respectively, the at least two image capturing components capture images through the at least two image capturing regions to obtain at least two images, and process the at least two images to eliminate a plurality of diffraction light spots, so as to obtain a final image without the diffraction light spots, thereby improving a display effect.
US12067926B2
A driving system and a driving method of a display panel are provided. A flash memory is disposed in a first circuit board of the driving system, and a timing controller is disposed in a second circuit board of the driving system. In this way, only one flash memory is needed to store basic configuration data of the timing controller and adjustment data of the display panel, and a number of flash memory is decreased in comparison with two flash memories required in conventional technology. Flash memory capacity is reasonably used, preventing a waste of flash memory capacity while saving production cost.
US12067924B2
The present application provides a display panel and a controlling method thereof. The method includes: obtaining two grayscale values corresponding to two locations in a same frame, wherein two data voltages of the two locations are transmitted by the same data line; obtaining a grayscale threshold value, and determining a grayscale difference value according to the two grayscale values; when an absolute value of the grayscale difference value is greater than grayscale threshold value, obtaining a first voltage range, and determining the two data voltages corresponding to the two locations according to the first voltage range and the two grayscale values.
US12067918B2
A display device includes a data line, a pixel electrically connected to the data line, a data driver for outputting a data voltage, and a transmitter electrically connected between an output terminal of the data driver and the data line. The transmitter may transmit an instance of the data voltage to the data line in a first period. The transmitter may amplify a second instance of the data voltage to generate a reference voltage and then transmit the reference voltage to the data line in a second period different from the first period. The pixel includes a light emitting element for emitting light in response to the first instance of the data voltage. A voltage level of the reference voltage may be higher than a voltage level of the data voltage.
US12067917B2
A method for driving a display device is performed by the display device. The method includes: displaying a first image including user convenience information through a display panel; generating sensing data corresponding to a fingerprint sensing area by using a photoelectric sensor; and determining whether a sensed fingerprint corresponding to the sensing data is a fake fingerprint by comparing expected sensing light illuminance information based on the first image with sensed light illuminance information of the sensing data. The first image includes a first color pattern in the fingerprint sensing area of the display panel. A fake-determination image pattern includes the first color pattern and a second color pattern different from the first color pattern.
US12067916B2
A driving circuit and a display panel are provided. The driving circuit includes a plurality of driving units which are cascaded. An Nth stage driving unit includes: a pull-up control module; a first bootstrap module; a pull-up module; a pull-down control module; and a first pull-down module. The driving circuit can be normally operated by input signal lines including a first clock signal line, a second clock signal line, a first power signal line, a second power signal line, and an initial signal line, so that types and a number of the input signal lines can be effectively reduced.
US12067914B2
A display apparatus including a display, a memory configured to store moving trajectory information related to a plurality of moving trajectories. and a processor configured to control the display to display a specific pixel which is pixel-shifted according to a first moving trajectory among the plurality of moving trajectories in a plurality of image frames included in a first frame interval. The processor, based on completing of the specific pixel being pixel-shifted according to the first moving trajectory, moves the specific pixel located at a starting point of the first moving trajectory by pixel units in any one of a vertical direction and a horizontal direction, and control the display to display the specific pixel by being pixel-shifted according to a second moving trajectory among the plurality of moving trajectories in a plurality of image frames included in a second frame interval.
US12067912B2
A display driver includes: a driver circuit that drives an electro-optical panel; an output terminal that outputs an output signal from the driver circuit; an output line that couples the output of the driver circuit and the output terminal; and an inspection circuit that detects an abnormality of the output signal output by the driver circuit to the output line by monitoring a voltage of the output signal. The inspection circuit determines whether the voltage of the output signal is abnormal by comparing the voltage of the output signal with a reference voltage whose voltage changes in each given cycle.
US12067910B2
A display panel includes: a display including pixel columns electrically connected to data lines; a non-display area adjacent the display; a test circuit configured to receive a lighting test signal passing through at least a portion of the non-display area and to transfer the lighting test signal to the data lines in response to a test control signal; and a switch configured to receive a data signal from an external component and to transfer the data signal to the data lines in response to a switching signal.
US12067909B2
A head-mounted device may include a camera that captures a live video feed of an environment. A display in the head-mounted device may display passthrough display content that includes the live video feed. Control circuitry may dynamically adjust a maximum allowable brightness for the passthrough display content during operation of the head-mounted device. Upon an initial donning of the head-mounted device, the passthrough display content may be permitted to use most or all of the achievable brightness range of the display. After a given time period, the user may be adapted to the brightness range of the display and the maximum allowable brightness for the passthrough display content may be reduced to allow additional headroom for rendered display content. The control circuitry may continue to adjust tone mappings for passthrough display content and rendered display content based on whether the display content favors real-world content or virtual content.
US12067904B2
A bistable automatic cable wrap for being wrapped around a cable or wire has a stable extended state in which the bistable automatic cable wrap extends essentially along a longitudinal direction. The bistable automatic cable wrap automatically adopts a stable wound state if deformed in the extended state.
US12067903B2
The present application relates to a method for manufacturing an indicator for food that can visually check the quality change in food in a package state, an indicator for food manufactured therefrom, and a method for checking the storage status of food using the same. The manufacturing method of an indicator for food of the present application includes bonding a first film, on which an indicator layer including a pH-sensitive indicator is formed on one surface thereof, and a second film, on which an adhesive layer is formed on one surface thereof, so that the indicator layer of the first film and the adhesive layer of the second film can face each other.
US12067902B2
A system and method for processing garbled circuit techniques in memory-limited environments. The method includes: initializing a plurality of input gates and a plurality of state gates; generating a circuit slice for an update function; setting the plurality of state gates as a plurality of new output-state-gates; and generating a circuit slice for a finalization function, wherein the finalization function represented by a sub-circuit, the outputs of which are terminal gates.
US12067898B2
In one embodiment, an apparatus comprises a memory and a processor. The memory is to store sensor data, wherein the sensor data is captured by a plurality of sensors within an educational environment. The processor is to: access the sensor data captured by the plurality of sensors: identify a student within the educational environment based on the sensor data: detect a plurality of events associated with the student based on the sensor data, wherein each event is indicative of an attention level of the student within the educational environment: generate a report based on the plurality of events associated with the student; and send the report to a third party associated with the student.
US12067892B1
A computer-implemented system and method for vocal training. A user's voice is measured and assessed. Personalized attributes about the user are also acquired including goals of the user. Based on measured aspects of a user's voice, and attributes acquired about the user (based on a combination of user-reported data, mechanically-assessed and/or artificial intelligence-determined analysis), (1) a report is generated about the user's vocal quality and ability, and (2) the user is given individualized feedback, lessons, and vocal exercises specific to the user's voice, vocal ability, voice-comfort-zone boundaries, and the user's goals in a scientific manner in the form of a virtual-vocal coach. The techniques and goals may be given to the user in real time, and/or used to generate new exercises and drills. By constantly measuring and scoring a user's progress, an ongoing-overall-voice strategy is generated to help the user meet the user's ongoing vocal-development goals.
US12067891B2
There is provided an information processing device, an information processing method, and a program that can provide an information processing device, an information processing method, and a program that can effectively assist in learning performance. The information processing device includes a sensing data obtaining section configured to obtain sensing data regarding at least one of a motion pattern, a motion speed, a motion accuracy, and a motion amount of a motion element of a user in a practice in performance performed by movement of at least a part of a body of the user and a state of a result produced by the performance, an analyzing section configured to analyze the obtained sensing data and estimate information regarding the practice in the performance of the user on a basis of a result of the analysis, and an output section configured to output a result of the estimation to the user.
US12067888B2
A system for providing a flight planning tool is disclosed. The system may include at least one memory device for storing flight information and one or more hardware processors. The one or more hardware processors may be configured to provide an Application Program Interface (API) for facilitating communication between the system and at least one of a client device and one or more third-party devices, receive, via the API, a request including first information related to a flight, collect, via the API and based on the first information, second information from one or more third-party devices, generate flight trip data based on the first and second information, wherein the flight trip data includes information and graphics associated with the flight, and provide, via the API, one or more user interfaces to the client device for communicating the flight trip data.
US12067884B2
In an aspect an apparatus for encrypting external communication for an electric aircraft. The apparatus may comprise a communication component configured to communicate with a network node. The apparatus may also include a battery pack configured to power the electric aircraft and a battery sensor, wherein a battery senor is configured to generate battery datum. A computing device may be included within the apparatus. The computing device may be configured to be receive the battery datum, encrypt the battery datum using an encryption process, identify the network node and transmit the encrypted battery datum to the network node using the communication component.
US12067877B2
A method at a computing device within an Intelligent Transportation System, the method including detecting a traffic event at the computing device; determining no fixed roadside unit is available from the computing device; establishing an Internet Protocol connection from the computing device to a network node; and sending a traffic event message from the computing device to the network node, the traffic event message providing information for the traffic event.
US12067868B2
The present disclosure may provide a system. The system may obtain at least one pair of images from at least one pair of capture devices. Each of the at least one pair of capture devices may include a first capture device and a second capture device, and each of the at least one pair of images may include a first image captured by the first capture device and a second image captured by the second capture device. The system may determine first identification information of at least one first object in the first image and determine second identification information of at least one second object in the second image. Further, the system may determine at least one information pair by correlating at least a part of the first identification information and at least a part of the second identification information.
US12067867B2
In one example embodiment, a computer-implemented method for determining traffic conditions includes obtaining traffic sample data associated with a first direction of traffic on a first road segment, the traffic sample data including data indicative of a plurality of movement speeds associated with a plurality of objects. The method includes determining a plurality of average traffic speeds for the first direction of traffic on the first road segment based at least in part on the plurality of movement speeds. The method includes associating each of the plurality of average traffic speeds with at least one of a plurality of traffic types. The method includes determining map data based at least in part on the plurality of traffic types and associated average traffic speeds. The method includes transmitting to a client device in response to a request, map data corresponding to at least one of the plurality of traffic types.
US12067864B2
The present invention discloses a method for rapid determining a situation of mixed traffic conflicts, which is used in the field of traffic management, including identifying each of traffic individual units in the road section to be detected, calculating a movement distance of the traffic individual units within the reaction time, and obtaining critical conflict areas for vehicles and pedestrians. Then by obtaining intersections of critical conflict areas to finally obtain potential traffic conflict areas. Compared with the previous traffic conflict determination technology, it has strong operability, many applicable objects, wide application range, intuitive and visible results, and practical promotion value.
US12067860B2
A security system including a sensor communication interface configured to communicate with a plurality of sensors, an output interface, and at least one processor in communication with the communication interface. The at least one processor is configured to: receive, via the sensor communication interface, sensor data from one or more of the plurality of sensors; determine, from a plurality of tiers, a respective tier associated with the sensor data; and determine, based on the sensor data and the respective tier, whether to change a state of the security system. The at least one processor is further configured to: in response to determining to change the state of the security system, change the state of the security system; and determine, based on the changed state of the security system, whether to generate an output via the output interface.
US12067859B2
One or more embodiments of the present disclosure describe an RFID-enabled roofing accessory. The roofing accessory may include a roofing shingle, such as an asphalt roofing shingle. The roofing accessory may include an RFID tag incorporated thereon. The RFID tag may be adhered to the roofing accessories.
US12067844B2
The present disclosure relates generally to a gaming system, device, and method supportive of an enhanced electronic gaming machine auto play mode. A gaming system, device, and method are provided that identify data associated with a set of previous gameplay sessions, the data including a set of previous gameplay decisions associated with the set of previous gameplay sessions; generate a set of playstyle models based on the set of previous gameplay decisions; and enable a gameplay mode in which a playstyle model of the set of playstyle models may be utilized to provide automated player inputs to a gameplay session.
US12067843B2
A multi-game package environment for a gaming device includes at least a first and second game. The first game is eligible to trigger a payout of one or more first progressive feature prizes associated with the first game and ineligible to trigger a payout of one or more second progressive feature prizes associated with the second game. A first set of random-based game outcomes are generated for a round of play of the first game to randomly determine a bulk progressive feature prize update operation across at least one progressive feature prize of each of the games in the multi-game package. A second set of random-based game outcomes is generated to randomly determine whether one of the one or more first progressive feature prizes in the first game is triggered. Concurrently, an amount by which to update a visual meter associated with each updated progressive feature prize may be determined.
US12067841B2
A gaming system compatible with patron-controlled portable electronic devices, such as smart phones or tablet computers, is described. The gaming system can include electronic gaming machines that are compatible to receive both virtual ticket vouchers and printed ticket vouchers that are redeemable for credits on the electronic gaming machines. Information associated with a virtual ticket voucher can be stored on a patron-controlled portable electronic device and then can be wireless transmitted to the electronic gaming machines. The electronic gaming machines can be configured to issue virtual ticket vouchers and printed ticket vouchers that can be redeemed for cash or additional game play on another electronic gaming machine. In one embodiment, the electronic gaming machine can be configured to issue a virtual ticket voucher to a patron-controlled portable electronic device.
US12067836B1
Before a game is provided, a state is established in which each of a server 2 and a user terminal 3 is capable of using common node definition data ND corresponding to the game. A plurality of nodes indicating a state of the game are defined in the node definition data ND. While the game is being played by a user, the user terminal 3 transitions the node on the basis of the node definition data of the user terminal 3, changes a value of terminal-side setting information, and records transition reproduction information capable of reproducing the transition of the node and the changed value of the terminal-side setting information as a log in log data. In addition, the user terminal 3 transmits transmission log data DL including the log to the server 2. The server 2 reproduces the transition of the node on the basis of the transition reproduction information of the transmission log data and the node definition data ND of the server 2, changes a value of server-side setting information with the transition of the node, and compares the value of the server-side setting information with the value of the terminal-side setting information recorded in the transmission log data.
US12067831B2
In accordance with some embodiments, an RFID-enabled table game system provides for determining whether there is a variance between an expected balance of inventory and an actual balance of inventory in a game element container. If a variance is detected, the RFID-enabled game system may identify at least one characteristic associated with an RFID-enabled game element that is determined to be a source of the variance (e.g., a player position at which the RFID-enabled game element had last been detected, a denomination or value of the game element, and/or an identifier associated with the game element). In some embodiments, an alert may be output to game provider personnel (e.g., a dealer of a card game) at the end of a game play when such a variance is detected, thus allowing the variance to be corrected in an efficient and timely manner.
US12067828B2
Gaming devices and systems incorporating one or more image projectors capable of displaying under control of a video controller. The video controller may be onboard the gaming device, or can be a video controller server in networked communication with an individual gaming device; wherein some cases both such video controllers may be utilized. The video controller(s) have access to one or more image projectors on a gaming device and may respond to different trigger conditions to exercise control over image projectors of respective gaming devices. An onboard video controller in a first gaming device may communicate with two or more additional gaming devices, such as a bank of gaming devices, for controlling image projectors of such devices.
US12067827B2
A medication packaging device includes a frame structure on which a guide unit is removably fastened, the guide unit having multiple receptacle openings and a dispensing opening. The device also includes multiple storage and dispensing stations, each having a storage housing and a dispensing station having a medication dispensing channel, as well as a holding unit having a plurality of mounts. For each mount, a medication slide and a storage and dispensing station are arranged such that the receptacle openings of the medication slides are associated with the medication dispensing channels of the dispensing stations and the dispensing openings of the medication slides are associated with the receptacle openings of the guide unit. The holding unit and the frame structure are fastened on or in the device to be movable relative to one another so that the guide unit is accessible from outside the device when in an access position.
US12067822B2
Provided is a gate device that accurately determines a user who is an authentication target. This gate device is provided with an acquisition unit, a setting unit, and a gate control unit. The acquisition unit acquires an image from a camera. When a plurality of users are included in the acquired image, the setting unit specifies a user on the front row among the plurality of users in accordance with the respective positions of the plurality of users in the image, and sets the specified user as an authentication target person. The gate control unit controls a gate on the basis of a authentication result of the authentication target person.
US12067819B2
A system and computer-implemented method detect and act upon deactivated vehicle components. The system and method include receiving measurements data associated with driving activity. The measurements data includes an indication that at least one feature of an Advanced Driver Assistance System (ADAS) of a vehicle has been deactivated for a driving activity. The system and method may include receiving historical driving data including a history of at least one driving activity aided by activation of the alert from the ADAS feature. The system and method may compare the measurements data to the historical driving data, determine a likelihood level that the feature of the ADAS would have provided the alert had the feature been activated based upon the comparing, and set, based at least upon the determining, at least a portion of an operator profile associated with an operator of the vehicle with the likelihood level.
US12067818B2
To identify sources of data resulting from an execution flow in a robotic device such as an autonomous vehicle, an operating system receives sensor data from various sensors of the robotic device. For each sensor, the system generates a data log comprising an identifier of a first checkpoint associated with that sensor, as well as a first timestamp. The system performs an execution flow on the sensor data from that sensor. The system updates the data log to include an identifier and timestamp for one or more additional checkpoints during the execution flow. The system then fuses results, uses the fused data as an input for a decision process, and causes a component of the robotic device to take an action in response to an output of the decision process. The system may record the action, an action timestamp and the data logs for each sensor in a memory.
US12067804B2
Methods and systems are disclosed for performing operations comprising: receiving, by one or more processors, an image that includes a depiction of a face of a user; computing a real-world scale of the face of the user based on a selected subset of landmarks of the face of the user; obtaining an augmented reality graphical element comprising augmented reality eyewear; scaling the augmented reality graphical element based on the computed real-world scale of the face; and positioning the scaled augmented reality graphical element within the image on the face of the user.
US12067798B2
Systems, apparatuses, devices and methods for body pose tracking are provided that are simple, inexpensive, flexible, accurate and robust. One body pose tracking system includes a mobile device, such as a smartphone, and active or passive marker bands. Images and depth information captured by the smartphone may be analyzed using an Inverse Kinematic (IK) model, and, in certain cases, the IK model solution may be augmented by machine learning. Other body pose tracking systems include an augmented-reality/virtual-reality (AR/VR) head-mounted-display (HMD) and/or AR/VR glasses rather than a smartphone. An AR/VR HMD device may include a depth sensor and multiple environment-facing cameras.
US12067791B2
An autonomous mobile platform is described. The autonomous mobile platform is configured for use in road monitoring, and comprising: a scanning module configured to be used for road scanning in order to enable identifying hazards associated with the road being scanned; a location finder, configured to determine locations of hazards identified at the road being scanned; and at least one transmitter comprised in a respective autonomous mobile platform, and configured to transmit data derived by the scanning module from the road scanning.
US12067788B2
The present disclosure is related in general to field of machine learning and image processing, that provides a method and system for detecting and classifying lanes. A lane detection and classification system receives an input image from a data source and segments the input image into plurality of segments using a trained semantic segmentation model. Further, one or more lane markings are detected in the segmented image and, lane pattern and lane colour of each of the one or more lane markings, wherein each lane marking is associated with a priority. Subsequently, a binary image comprising lane markings of ego lanes of the host vehicle is generated and coefficient values of the ego lanes of the host vehicle are determined based on the priority value associated with the lane markings of the ego lanes and current position of the host vehicle, using a trained Convolutional Neural Network (CNN) model.
US12067781B2
Disclosed herein are system, method, and computer program product embodiments for camera surveillance planning and tracking using, for example, infrared technologies. An embodiment operates by receiving a camera specification input and placement input, calculating a surveillance coverage based on the camera specification and the placement input, displaying the surveillance coverage on a map, and identifying at least one stereo pair.
US12067778B2
An image recognition approach employs both computer generated and manual image reviews to generate image tags characterizing an image. The computer generated and manual image reviews can be performed sequentially or in parallel. The generated image tags may be provided to a requester in real-time, be used to select an advertisement, and/or be used as the basis of an internet search. In some embodiments generated image tags are used as a basis for an upgraded image review. A confidence of a computer generated image review may be used to determine whether or not to perform a manual image review. Images and their associated image tags are optionally added to an image sequence.
US12067774B2
In order to improve a user's task of documenting items that are identified by the user while at a construction site, a computing system may be configured to (i) receive, from a first client station associated with a first user, media content that is descriptive of a given on-site item of a construction site, (ii) apply a speech recognition technique to transcribe audio data included in the media content into text that is descriptive of the given on-site item, (iii) generate a data record for the given on-site item, (iv) pre-populate at least a portion of the transcribed text into one or more fields of the data record for the given on-site item, and (v) cause a second client station to display the data record to a second user for review.
US12067756B2
Systems, and method and computer readable media that store instructions for calculating signatures, utilizing signatures and the like, wherein for a low-power calculation of a signature, the method comprises: receiving or generating a media unit of multiple objects: processing the media unit by performing multiple iterations, determining a relevancy of the spanning elements of the iteration; completing the dimension expansion process by relevant spanning elements of the iteration and reducing a power consumption of irrelevant spanning; determining identifiers that are associated with significant portions of an output of the multiple iterations; and providing a signature that comprises the identifiers and represents the multiple objects.
US12067752B1
A three-dimensional data encoding method includes: (i) when a number of three-dimensional points included in point cloud data to be encoded is n that is greater than a predetermined number, n being an integer greater than or equal to 2, calculating an encoding coefficient by generating a hierarchical structure in which each of n pieces of attribute information on the three-dimensional points is sorted into one of a higher frequency component and a lower frequency component to be layered, and generating a bitstream including the encoding coefficient calculated in the calculating; and (ii) when a number of three-dimensional points included in the point cloud data is m that is smaller than or equal to the predetermined number, m being an integer greater than or equal to 1, generating a bitstream in accordance with m pieces of attribute information on the three-dimensional points without generating a hierarchy structure.
US12067749B2
Systems, apparatuses, and methods for performing color channel correlation detection are disclosed. A compression engine performs a color channel transform on an original set of pixel data to generate a channel transformed set of pixel data. An analysis unit determines whether to compress the channel transformed set of pixel data or the original set of pixel data based on performing a comparison of the two sets of pixel data. In one scenario, the channel transformed set of pixel data is generated by calculating the difference between a first pixel component and a second pixel component for each pixel of the set of pixel data. The difference is then compared to the original first pixel component for each pixel. If the difference is less than or equal to the original for a threshold number of pixels, then the analysis unit decides to apply the color channel transform prior to compression.
US12067743B2
Systems, methods, devices and computer readable media for determining a geographical location of a license plate are described herein. A first image of a license plate is acquired by a first image acquisition device of a camera unit and a second image of the license plate is acquired by a second image acquisition device of the camera unit. A three-dimensional position of the license plate relative to the camera unit is determined based on stereoscopic image processing of the first image and the second image. A geographical location of the camera unit is obtained. A geographical location of the license plate is determined from the three-dimensional position of the license plate relative to the camera unit and the geographical location of the camera unit. Other systems, methods, devices and computer readable media for detecting a license plate and identifying a license plate are described herein.
US12067740B2
Methods and apparatus for processing images captured by cameras for use in stereo depth determinations are described and/or for using depth information generated by processing such images is described. Images are captured using a reference camera and at least one additional camera. Filtering is implemented as part of a patch matching process to reduce the risk of erroneous matches, e.g., due to image blur in one image but not another. The filtering may be, and sometimes is, implemented on a patch basis. A candidate patch is generated by filtering a portion of an image captured by a camera, e.g., a second camera by performing a sharpening or blurring operation to a portion of the image to generate a candidate patch. The amount of blurring or sharpening that is applied to generate the candidate patch depends, in some embodiments, on the relative difference between the candidate patch and the reference patch. Thus in some embodiments the amount of sharpening and blurring is dependent on both the content of the reference patch as well as the portion of the second image used to generate the candidate patch.
US12067738B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for determining estimated ground truth object keypoint labels for sensor readings of objects. In one aspect, a method comprises obtaining a plurality of sets of label data for a sensor reading of an object; obtaining respective quality control data corresponding to each of the plurality of sets of label data, the respective quality control data comprising: data indicating whether the labeled location of the first object keypoint in the corresponding set of label data is accurate; and determining an estimated ground truth location for the first object keypoint in the sensor data keypoint from (i) the labeled locations that were indicated as accurate by the corresponding quality control data and (ii) not from the labeled locations that were indicated as not accurate by the corresponding quality control data.
US12067732B2
A computer-implemented neural network system for decomposing input video data. A video data input receives a sequence of video image frames. The sequence is encoded, using a 3D spatio-temporal encoder neural network, into a set of latent variables representing a compressed version of the sequence. A 3D spatio-temporal decoder neural network processes the set of latent variables to generate two or more sets of decomposed video data; these may be stored, communicated, and/or made available to a user interface. Input video including undesired features such as reflections, shadows, and occlusions may thus be decomposed into two or more video sequences, one in which the undesired features are suppressed, and another containing the undesired features.
US12067712B2
A system generates a context mask based on quantitative image data. The system obtains the quantitative image data which was captured via a quantitative imaging of a sample. The quantitative image data is compared to previous quantitative image data through application of the quantitative image data to a neural network trained using the previous quantitative image data and corresponding constructed context masks. The comparison generates the context mask for the quantitative image data. The context mask provides context for the quantitative parameter values that facilities characterization of the sample.
US12067704B2
A defect characterization method includes: a first scanning image and target defect coordinates in the first scanning image are obtained; a first defect image is obtained according to the target defect coordinates in the first scanning image, the first defect image containing a defect area where a target defect is located and a noise area not containing the target defect; the noise area is marked, Automatic Defect Review (ADR) calculation is performed on the defect area, and a pixel level value of a defect in the defect area is obtained; coordinates of the defect with a maximum pixel level value are obtained, and a second defect image is obtained according to the coordinates of the defect with the maximum pixel level value; and the defect with the maximum pixel level value is classified according to the second defect image.
US12067697B2
A first image collected by an image collector is acquired. A map generated based on a correspondence between a distortion rate and a field of view of the image collector is acquired. The map includes a mapping relation between a raw pixel coordinate of a pixel in a raw image collected by the image collector and a target pixel coordinate that has been corrected. A second image that has been corrected is acquired by correcting the first image based on the map.
US12067696B2
A system is provided that is configured to encode an image in accordance with a variable resolution image format. The variable resolution image format allows the specification of a number of windows in terms of their location and resolution. The image can be decomposed into a minimum number of square superpixels such that all specified windows are at the assigned resolution or better. By encoding one image where only critical portions are at the high resolution while less critical portions are at intermediate or lower resolutions, the number of bits that need to be transmitted from the system to a remote host subsystem can be dramatically reduced.
US12067686B2
A Virtual Reality (VR) computer system and method including a VR headset to be worn by at least one user; one or more pupil sensors located in the VR headset configured and operative to capture and track pupil movement of the at least one user wearing the VR headset; and at least one camera device operative to capture video image of at least one user wearing the VR headset. A computer processor is instructed to generate a two-dimensional (2D) image of the least one user such that an image of the VR headset is virtually removed from the image of the at least one user wearing the VR headset.
US12067677B2
An information processing apparatus, method, and non-transitory computer-readable storage medium that estimate a three-dimensional skeleton based on images captured from a plurality of viewpoints, and generate a skeleton model by modeling the three-dimensional skeleton. The information processing apparatus, method, and non-transitory computer-readable storage medium further model a joint in a spherical shape or a bone in a cylindrical shape in the three-dimensional skeleton, and set a radius of a sphere of the joint or a radius of a cylinder of the bone according to a distance between any one of the plurality of viewpoints or a virtual viewpoint and the joint or the bone.
US12067676B2
The present disclosure discloses a cyberspace map model creation method, which includes: determining that a coordinate system of a cyberspace map model uses an IP address as a basic vector; mapping the IP address to a two-dimensional coordinate system; determining, by means of orthogonalizing a logical port, a region, a topological structure to the IP address, a three-dimensional coordinate system to describe more fine-grained information of a cyberspace; constructing a scale standard, so as to lay a theoretical foundation for a multi-level and scalable representation of complex and diverse cyberspace resources in the cyberspace map model; and determining a mapping relationship between a cyberspace map and a geographic map to support screen segmentation, so as to perform a comparison drawing of a same cyberspace scenario in different cyberspace maps and geographic maps, and present cyberspace information in many aspects.
US12067671B2
According to some embodiments, a method performed by an extended reality (XR) system comprises: identifying a space within an XR spatial mapping to which virtual content can be overlaid; determining an amount of static occlusion associated with the identified space; and transmitting an indication of the amount of static occlusion associated with the identified space to a virtual content supply side platform. According to some embodiments, a method performed by an XR system comprises: triggering a digital content display opportunity associated with a space within an XR spatial mapping to which virtual content can be overlaid; determining an amount of dynamic occlusion associated with the space; and transmitting an indication of the amount of dynamic occlusion associated with the identified space to a digital content display opportunity bidding system.
US12067669B2
A hardware-based traversal coprocessor provides acceleration of tree traversal operations searching for intersections between primitives represented in a tree data structure and a ray. The primitives may include triangles used in generating a virtual scene. The hardware-based traversal coprocessor is configured to properly handle numerically challenging computations at or near edges and/or vertices of primitives and/or ensure that a single intersection is reported when a ray intersects a surface formed by primitives at or near edges and/or vertices of the primitives.
US12067667B2
Disclosed approaches provide for interactions of light transport paths in a virtual environment to share directional radiance when rendering a scene. Directional radiance that may be shared includes outgoing directional radiance of interactions, incoming directional radiance of interactions, and/or information derived therefrom. The shared directional radiance may be used for various purposes, such as computing lighting contributions at one or more interactions of a light transport path, and/or for path guiding. Directional radiance of an interaction may be shared with another interaction when the interaction is sufficiently similar (e.g., in radiance direction) to serve as an approximation of a sample for the other interaction. Sharing directional radiance may provide for online learning of directional radiance, which may build finite element approximations of light fields at the interactions.
US12067666B2
Aspects presented herein relate to methods and devices for graphics processing including an apparatus, e.g., a GPU. The apparatus may receive a set of draw call instructions corresponding to a graphics workload, where the set of draw call instructions is associated with at least one run-time parameter. The apparatus may also obtain a first shader program associated with storing data in a system memory and at least one second shader program associated with storing data in a constant memory. Further, the apparatus may execute the first shader program or the at least one second shader program based on whether the at least one run-time parameter is less than or equal to a size of the constant memory. The apparatus may also update or maintain a configuration of a shader processor or a streaming processor based on executing the first shader program or the at least one second shader program.
US12067661B2
Methods, systems, and non-transitory computer readable storage media are disclosed for utilizing unsupervised learning of discrete human motions to generate digital human motion sequences. The disclosed system utilizes an encoder of a discretized motion model to extract a sequence of latent feature representations from a human motion sequence in an unlabeled digital scene. The disclosed system also determines sampling probabilities from the sequence of latent feature representations in connection with a codebook of discretized feature representations associated with human motions. The disclosed system converts the sequence of latent feature representations into a sequence of discretized feature representations by sampling from the codebook based on the sampling probabilities. Additionally, the disclosed system utilizes a decoder to reconstruct a human motion sequence from the sequence of discretized feature representations. The disclosed system also utilizes a reconstruction loss and a distribution loss to learn parameters of the discretized motion model.
US12067657B2
In a digital image annotation and retrieval system, a machine learning model identifies an image feature in an image and generates a plurality of question prompts for the feature. For a particular feature, a feature annotation is generated, which can include capturing a narrative, determining a plurality of narrative units, and mapping a particular narrative unit to the identified image feature. An enriched image is generated using the generated feature annotation. The enriched image includes searchable metadata comprising the feature annotation and the plurality of question prompts.
US12067649B2
A disclosed technique includes determining a plurality of per-pixel variable rate shading rates for a plurality of fragments; determining a coarse variable shading rate for a coarse variable rate shading area based on the plurality of per-pixel variable rate shading rates; and shading one or more fragments based on the plurality of fragments and based on the coarse variable shading rate.
US12067642B2
One or more processing units, such as a graphics processing unit (GPU), execute an application. A resource manager selectively allocates a first memory portion or a second memory portion to the processing units based on memory access characteristics. The first memory portion has a first latency that is lower that a second latency of the second memory portion. In some cases, the memory access characteristics indicate a latency sensitivity. In some cases, hints included in corresponding program code are used to determine the memory access characteristics. The memory access characteristics can also be determined by monitoring memory access requests, measuring a cache miss rate or a row buffer miss rate for the monitored memory access requests, and determining the memory access characteristics based on the cache miss rate or the row buffer miss rate.
US12067641B2
One embodiment provides a parallel processor comprising a memory interface and a processing array coupled with the memory interface. The processing array is configured to address memory accessed via the memory interface via a virtual address mapping and includes circuitry to resolve a page fault for the virtual address mapping, wherein each of the multiple compute blocks is separately preemptable.
US12067639B2
An image capturing apparatus includes a capture part acquiring image data, and a display displaying an image on a display based on the image data. First information acquired includes at least either an azimuth angle or an elevation angle as a direction of the image and at least either an angle of view of the image or angle-of-view related information calculating the angle of view. When a second direction of a second image is included within a range of a first angle of view in a first direction of a first image, the second image is associated with the first image, and the first image is displayed within the display, and display is performed in a state in which the second image to be associated with the first image is overlapped on the first image within the display as the second image or second information indicating the second image.
US12067636B2
Methods and systems for providing location fencing within a controlled environment are disclosed herein. A location fencing server determines a location of a first inmate based on a first beacon device, and determines a location of a second inmate based on a second beacon device. Further, the location fencing server determines a proximity status based on the location of the first inmate and the location of the second inmate. Additionally, the location fencing server determines that the first inmate and the second inmate are in violation of a proximity policy based on the proximity status. In some embodiments, the location fencing server sends a notification to an employee device based on the violation of a proximity policy.
US12067633B2
Examples relate to a method includes monitoring a set of parameters. The set of parameters are associated with a first set of computing components and a second set of computing components. The first set of computing components is located in a first region and the second set of computing components is located in a second region. The first region is positioned proximate a generation station control system associated with a generation station and the second region is positioned remotely from the generation station control system. Each computing system of the second set of computing systems is configured to adjust power consumption during operation. The method also includes adjusting power consumption at one or more computing components of the second set of computing components based on the set of parameters.
US12067626B2
Methods and systems for maintaining a distributed ledger and/or blockchain of transactions and/or events pertaining to autonomous vehicles and/or smart contracts. An enforcement server may receive indications of transactions and/or events generated by one or more autonomous vehicles. The transactions and/or events may include information relating to a trigger condition and/or a decision condition associated with one or more smart contracts. The enforcement server may route the transaction to the appropriate smart contract to determine whether a trigger condition has been satisfied. When a trigger condition is satisfied, the enforcement server may automatically perform an action to enforce the smart contract and/or update the distributed ledger. In some aspects, the distributed ledger may record events associated with autonomous and semi-autonomous vehicle technology or system usage, including events associated with transitioning between manual and autonomous control, or vice versa, of one or more autonomous or semi-autonomous vehicles.
US12067618B2
Methods and systems are disclosed for automatically taking actions based on triggering events in market data using a filter component are disclosed. Market trading information is received, including one or more bids and one or more asks. An untriggered virtual order is received via a filter component of a graphical user interface (GUI), including a triggering event and associated action. Upon detecting, in the market trading information, an occurrence of the triggering event, the associated action is triggered. The action can include generating an alert and/or submitting an order to a marketplace based on the untriggered virtual order. In some implementations, the filter component can display a filtered portion of the market trading information, and an untriggered virtual order can be configured via the filter component by selecting a bid or ask.
US12067615B2
Systems and techniques are disclosed for accessing accounts associated with a user and estimating a value of an attribute associated with the user based upon the retrieved account information. Transaction data associated with an account at an external user account system is received. The transactions are categorized into transaction groups. For each transaction group, a confidence value that the group is associated with the attribute is estimated, based at least in part upon a distribution of transaction amounts for the transactions of the group over a time period associated with the group. An attribute value is estimated for each group, based at least in part upon the transaction amounts of the transaction of the group. In addition a value of the attribute for a future time period may be predicted based upon the transaction groups.
US12067614B2
A system and method for performing a purchase transaction using rewards points by receiving a purchase request using a financial account with associated account information, determining based on the account information that the financial account is associated with a rewards program with rewards points, and providing the option to pay for the purchase using the financial account or at least a portion of the rewards points. The purchase may be paid for using rewards points from multiple rewards programs and/or multiple financial accounts.
US12067609B2
Methods and systems for allocating cells of a sorting apparatus include associating, in a database, an identifier of the sorting apparatus with an identifier of a first container storing a first item of the purchase order, the purchase order including a second item stored in a second container; before associating the sorting apparatus with the second container, receiving an identifier of the first item; determining, in the database using the identifier of the first item, whether any cell of the sorting apparatus is associated with the purchase order; when no cell of the sorting apparatus is associated with the purchase order, associating, in the database, an identifier of a cell of the sorting apparatus with the identifier of the purchase order; and transmitting a first signal to a computer associated with a worker instructing placement of the first item in the cell.
US12067601B2
A computer-implemented method for generating a digital identity of equipment on an equipment online marketplace platform is disclosed. The method may include: receiving, by a server executing the equipment online marketplace platform through a network, one or more images or documents containing information of the equipment from a user accessing the equipment online marketplace platform on a user device through the network; extracting, by the server, from the images or documents of the equipment information identifying the equipment; and generating, by the server, a blockchain entry for the equipment in a shared ledger, the blockchain entry containing the information identifying the equipment.
US12067600B2
An available capacity-based billing system includes a vehicle including a battery, and a battery controller configured to determine a maximum value and a minimum value of a state of charge (SOC) of the battery based on settings of an available capacity of the battery, a user terminal configured to receive a capacity setting change request including a setting change amount of the available capacity and then to transmit the capacity setting change request, and a server configured to receive the capacity setting change request transmitted by the user terminal and to determine a battery usage fee corresponding to the setting change amount of the available capacity included in the received capacity setting change request.
US12067598B2
The disclosed subject matter relates to a system and method for personalizing customer experience at a retailer's physical location in order to increase sales and customer satisfaction. The personalization is based upon classification of customer's online interaction with the retailer. Upon detecting the customer's presence at the retailer's physical location, data of the customer's online interactions is retrieved and classified based on the type of online interactions and temporal characteristics. Push content is transmitted to the customer, the push content being based upon at least the classification and data associated with retailer's physical location.
US12067593B2
Provided is a method of determining an advertisement target according to an advertisement request, the method includes: obtaining usage history information from a plurality of devices, obtaining features of the plurality of devices, based on the usage history information, and generating feature vectors for the obtained features; determining labels for the plurality of devices, based on the advertisement request and the obtained features; generating an advertisement target inference model, based on the determined labels and the feature vectors; and determining at least one advertisement target device among the plurality of devices by applying the generated advertisement target inference model to the plurality of devices.
US12067591B2
Systems and methods are provided for determining a quantity of network location visitors that are likely generated or encouraged by specific offline events. A corresponding number of leads may then be attributed to and associated with those specific events. Ongoing conversion activity of those visitors may be tracked and associated with the offline events. Conversions of those visitors may be attributed entirely or partially to one or more specific offline events. The effectiveness of each offline may then be evaluated based on aggregate lead and conversion information.
US12067589B2
Utilizing machine learning models to recommend travel offer packages relating to a travel experience
A device may receive, from account entity devices, sets of transaction data for transactions between merchants and customers, and may use a first machine learning model to assign the customers to clusters based on measures of similarity among the sets of transaction data. The device may determine travel-related data items in a set of transaction data, of the sets of transaction data, associated with a set of customers assigned to a particular cluster, and may use a second machine learning model to identify a travel experience that has a threshold likelihood of being of interest to the set of customers. The device may receive offers relating to the travel experience, and may provide, to customer devices associated with customers of the set of customers, travel offer packages that include at least one of the offers relating to the travel experience.
US12067588B2
A system and method for operating a bundle-type checkout system incorporating subscription tiers, comprising an offer manager that receives price offer values from consumers, a discount optimization manager that calculates a least acceptable offer value based on offer pattern data associated to each product identifier of the bundle, calculates a total available discount for the bundle based on the least acceptable offer value and retail prices of each product identifier of the bundle, calculates price discount thresholds and compares price discount values to offer values to calculate price discounts and determines acceptability of the price offer values, and weighted discount distribution among subscription tiers to calculate a final price for each product identifier.
US12067583B2
This invention is directed toward a system which can “step into the shoes” of a user and learn the perspective of that user, regarding photographs or other content, to the point where the system can learn, using criteria it has developed through its interaction with the user, to select photographs it predicts the user will find meaningful from large sets of photographs. The “meaningfulness” of various content from a multitude of users is a constantly improving system made up of four basic elements: a General Content Perspective, an Individual Content Perspective, a Natural Language Generation and Content Presentation, and a Hypersphere element.
US12067578B1
According to embodiments of the invention, systems and methods are provided for showing messaging on a customer window established between a first (main serving company), second (customer), third (second company on same value chain of a given service or product related to a customer question), and fourth (third company on same value chain of a given service or product related to a customer question) network nodes. This configuration supports direction interaction concerning multiple companies, rather than just support single facing, where the customer support officer does not have answers relating to certain matters involving outside companies due to sub-contracting of products and services. This invention improves service quality and increase customer satisfaction by incorporating company representatives from many companies involved in a given product and service.
US12067577B2
A system comprises at least one computer device in communication with one or more server computers. The system converts unstructured text into usable order details, and uses instant messaging to notify recipients of the order details. The notices include electronic web links that launch a web interface that generates an editable, pre-populated electronic order ticket based on the order details. Submission of the electronic order ticket launches an auction during which the recipients may respond with offers to fulfill to the electronic order ticket. If after the auction more than one response is needed to fill the electronic order ticket, the system automatically allocates how and in which order the responses will be used to fill the electronic order ticket. If the electronic order ticket is not completely filled after the auction, the electronic order ticket is submitted to one or more additional exchanges for further filling.
US12067575B2
Disclosed is a method, system, and computer program product for determining solvency of a digital asset exchange system. The method includes identifying a plurality of blockchain addresses corresponding to a plurality of users of a digital asset exchange system, generating a first commitment to an amount of digital assets corresponding to the plurality of blockchain addresses, and generating a second commitment to a balance of each user of the plurality of users. The method also includes generating a first component of a zero-knowledge algorithm that is configured to receive, as input, the first commitment. The method further includes generating, with at least one processor, a second component of the zero-knowledge algorithm that is configured to receive, as input, the second commitment. The method further includes determining that the digital asset exchange system is solvent based on the zero-knowledge algorithm.
US12067574B2
Using transaction data to present search results is described. A payment service computing platform may receive transaction data associated with users of a payment service, and may receive a search query from a payment application associated with the payment service and executing on a device of a user. The payment service computing platform may then determine, based at least in part on a portion of the transaction data associated with the user, a user risk metric associated with the user, may generate a list of entities based at least in part on the user risk metric, and may cause a user interface of the payment application to present at least a portion of the list of entities as a search result to the search query.
US12067570B2
Provided is a system, method, and computer program product for predicting a specified geographic area of a user. The method includes receiving transaction data associated with a plurality of transactions during a predetermined time interval. The method also includes generating a geographic area prediction model based on the transaction data by determining a verified geographic area for each user, and determining transaction data associated with a plurality of transactions involving each user for a plurality of feature vector parameters, training the geographic area prediction model based on the plurality of feature vector parameters for the verified geographic area for each user, and validating the geographic area prediction model based on the plurality of feature vector parameters for the verified geographic area for each user.
US12067569B2
Systems and methods are disclosed for detecting a suspicious and/or a non-suspicious activity during an electronic transaction performed by a user device. One method comprises identifying, by a monitoring and detection component, a starting check point in the electronic transaction. The monitoring and detection component may then receive contextual data from one or more sensors of the user device. Based on the contextual data and a machine learning model, the monitoring and detection component may determine whether an expected behavior occurred. Entry of user credentials may be enabled in response to determining that the expected behavior occurred, whereas the electronic transaction may be terminated in response to determining that the expected behavior did not occur.
US12067560B2
A system and method for transferring data representing one or more transactions between computing nodes of a computer network by at least one intermediary node may include: receiving a transaction request, for transferring ownership of a product from a current owner to a subsequent owner, the transaction request being signed by the current owner; authenticating the signature of the current owner; accessing a product chain associated with the product; extracting from the product chain a list of target user entities and a contract data element; producing an ownership block including an identification of the subsequent owner; appending the ownership block to the product chain, to indicate transfer of ownership from the current owner to the subsequent owner; and transferring data representing one or more transactions between the intermediary node and one or more computing nodes based on the transaction request.
US12067550B2
Systems, computer-implemented methods, apparatus, and/or computer program products that can facilitate electronic generation and/or display of enhanced, transaction-based QR codes are provided. In various embodiments, a system can receive, from an electronic beacon of a point-of-sale device, context data characterizing a transaction facilitated by the point-of-sale device. In various instances, the system can generate a quick response (QR) code based on the context data and based on financial instrument data, such that the context data and the financial instrument data are embedded within or correlated to the QR code. In various aspects, the system can visually render the QR code on an electronic display, such that the QR code is scannable by the point-of-sale device.
US12067547B2
A method for handoff includes: scanning an indirect token displayed on a guest device, where a guest has previously registered a payment instrument with a server, and associated the payment instrument with a plurality of indirect tokens, and the server has stored a payment token that associates the plurality of indirect tokens with the payment instrument in a database record along with a notification identifier; transmitting the ephemeral token to the server; simultaneously displaying details for a transaction, where the server has accessed the notification identifier to transmit a push notification to the guest device, and where the guest device is executing a proprietary application that allows for simultaneously displaying details for the transaction; and receiving notification from the server that the transaction is complete, where transaction completion data was entered via the guest device and transmitted to the server.
US12067543B2
A system includes a location identifier device and a computer system. The location identifier is configured to transmit an identifier to a user device when the user device is within a predetermined range of an area and receive location information from the user device associated with a user. The computer system is configured to receive the location information from the user device within the area via the location identifier device and receive a request for an ATM transaction from the user device. The request includes attribute information associated with the user. The computer system is configured to receive attribute information associated with the user comprising an indication of a license plate within the area and identify, based on a determination that the attribute information at least partially matches the attribute information from the request, the user associated with the request. The computer system is configured to transmit, based on the user device being within the area and the identification of the user, a transaction code to the user device.
US12067534B2
A geospatial maintenance server collects information from lab instruments such as usage information, instrument uptime, operational performance, and other characteristics. Such information may be used to identify upcoming maintenance needs for lab instruments, including usage based preventative maintenance, and unanticipated degradation based maintenance. A geospatial maintenance interface is provided that allows a user to select a certain country, region, state, or other geographic area to view information on lab instruments and maintenance needs within that area. The interface may display graphs showing uptime for various time periods, comparisons to uptime in other areas, maps with symbols indicating areas and types of maintenance needs, and per-device descriptions of maintenance needs. The interface may also be used to automate efficient and economical assignment of technicians to address maintenance tasks.
US12067524B2
In an aspect, a system for modifying a physical transfer path includes a computing device configured to generate an initial physical transfer path, wherein generating further comprises receiving a request for an alimentary combination, determining a first transfer party as a function of a geolocation area, determine a trouble state as a function of the initial physical transfer path, wherein determining further comprises receiving a delayed delivery notification, and determining the trouble state as a function of the delayed delivery notification and the initial physical transfer path using a trouble machine-learning model, and produce a modified physical transfer path, wherein producing further comprises receiving a delivery time threshold, identifying an alternate transfer party as a function of the trouble state, and producing the modified physical transfer path as a function of the delivery time threshold and the alternate transfer party using a transfer machine-learning model.
US12067498B2
Provided are a swarm control apparatus and an operating method thereof. In particular, a swarm control method, performed by the swarm control apparatus, includes: generating a first rule related to the swarm, based on an attribute of at least one node from among a plurality of nodes; sharing the generated first rule with the at least one node; forming the swarm including the at least one node, based on the shared first rule; detecting a change in the at least one node in the swarm; and changing the first rule to a second rule, based on the detected change.
US12067495B2
Apparatus and methods for training a neural network accelerator using quantized precision data formats are disclosed, and in particular for storing activation values from a neural network in a compressed format having lossy or non-uniform mantissas for use during forward and backward propagation training of the neural network. In certain examples of the disclosed technology, a computing system includes processors, memory, and a compressor in communication with the memory. The computing system is configured to perform forward propagation for a layer of a neural network to produced first activation values in a first block floating-point format. In some examples, activation values generated by forward propagation are converted by the compressor to a second block floating-point format having a non-uniform and/or lossy mantissa. The compressed activation values are stored in the memory, where they can be retrieved for use during back propagation.
US12067483B2
Embodiments of the present invention provide a machine learning model training method, including: obtaining target task training data and N categories of support task training data; inputting the target task training data and the N categories of support task training data into a memory model to obtain target task training feature data and N categories of support task training feature data; training the target task model based on the target task training feature data and obtaining a first loss of the target task model, and separately training respectively corresponding support task models based on the N categories of support task training feature data and obtaining respective second losses of the N support task models; and updating the memory model, the target task model, and the N support task models based on the first loss and the respective second losses of the N support task models.
US12067480B2
A signal processing method and apparatus, where the apparatus includes an input interface configured to receive an input signal matrix and a weight matrix, a processor configured to interleave the input signal matrix to obtain an interleaved signal matrix, partition the interleaved signal matrix, interleave the weight matrix to obtain an interleaved weight matrix, process the interleaved weight matrix to obtain a plurality of sparsified partitioned weight matrices, perform matrix multiplication on the sparsified partitioned weight matrices and a plurality of partitioned signal matrices to obtain a plurality of matrix multiplication results, and an output interface configured to output a signal processing result.
US12067474B2
A method implemented by one or more computing systems includes accessing a first data matrix including a plurality of row data and a plurality of column data. The method further includes providing, to a first generative adversarial network (GAN), a first data input including a plurality of row vectors corresponding to the plurality of row data, and providing, to a second GAN, a second data input including a plurality of column vectors corresponding to the plurality of column data. The method further includes generating, by simultaneous co-clustering the plurality of row vectors and the plurality of column vectors by the first GAN and the second GAN, a co-clustered correlation matrix based on the plurality of row vectors and the plurality of column vectors. The method further includes the co-clustered correlation matrix includes co-clustered associations between the plurality of row data and the plurality of column data.
US12067470B2
A system is described that determines, based on information associated with a user of a computing device, an event for initiating an interaction between the user and an assistant executing at the computing device. The system selects, based on the event and from a plurality of actions performed by the assistant, at least one action associated with the event. The system determines, based on the at least one action, whether to output a notification of the event which includes an indication of the event and a request to perform the at least one action associated with the event. Responsive to determining to output the notification of the event, the system sends, to the assistant, the notification of the event for output during the interaction between the user and the assistant.
US12067469B2
A system including one or more processors and one or more non-transitory computer-readable media storing computing instructions configured to run on the one or more processors and perform: receiving historical delivery records over a predetermined time period from partners associated with items offered to subregions through an online platform; generating nodes for combinations each comprising a respective one of the partners, a respective one of the items offered by the partners, and a respective one of the subregions; generating, using a machine learning model, a respective classification for each respective node on whether to tag the each respective node as deliverable in a predetermined time window; and automatically tagging a portion of the nodes as deliverable in the predetermined time window in the online platform. Other embodiments are disclosed.
US12067458B2
A system and method for initializing and optimizing a variational quantum circuit on a hybrid quantum-classical computer, comprising a set of gates and a set of initial parameters representing a model of a physical system. A quantum circuit is generated comprising a set of smaller contiguous subcomponents which can be independently optimized to minimize a property of the physical system, such as ground state energy or the absorption spectrum of a molecule. At least one entangling gate is introduced between at least two circuit subcomponents. The initial parameters of the circuit components may be set according to values obtained from a parameter library. Once the initial parameters are set, the circuit components of the quantum computer proceed to optimization, which is independent for each subcomponent of the system. The optimization method may also include the use of a variational quantum eigensolver (VQE).
US12067456B2
A system for entanglement-enhanced machine learning with quantum data acquisition includes a first variational circuit that generates a plurality of entangled probe light fields that interacts with a sample and is then processed by a second variational quantum circuit to produce at least one detection light field, a detector is used to measure a property of the at least one detection light field, and the first and second variational quantum circuits are optimized though machine learning. A method for entanglement-enhanced machine learning with quantum data acquisition includes optimizing a setting of a first and second variational quantum circuits, which includes probing a training-set with a plurality of entangled probe light fields generated by the first variational quantum circuit, and measuring a phase property of at least one detection light fields generated by the second variational quantum circuit from the plurality of entangled probe light fields after interaction with the training-set.
US12067454B2
One example of the present disclosure can include a server that can determine transport routes for individual objects based on rules. The transport routes can include an intermediary at which the individual objects are to be consolidated into a single container. The server can also receiving a request from a client computer for an object label corresponding to one of the individual objects. In response to receiving the request, the server can determine the intermediary based on a transport route for the object, generate the object label based on the intermediary, and transmit the object label to the client computer for causing the object label to be printed with a printer and coupled to the object.
US12067451B2
Embodiments position a barcode reader, or other optical detector, to scan upright barcodes when the user's hand is in the neutral position. To do this, embodiments rest the body of the ring scanner device on top of the index finger, with the palm facing inward toward the user's body. Embodiments have integrated interactivity, including a touchscreen display and separate buttons that can be used to operate the optical detector and input data into an integrated computing device. The integrated computing device can run software applications on board the ring scanner device. Finally, the integrated computing device can be remotely managed.
US12067443B2
Embodiments disclosed herein generally relate to line-powered wireless communications systems, and more specifically to methods and apparatus for providing persistent and ubiquitous wireless communications and sensor networks in physical premises to enable a wide variety of different applications and use cases.
US12067433B2
A method in a computing device includes generating a set of data packets comprising a first referrer data associated with a first resource rendered by the computing device when executing a first application and a second referrer data associated with a second resource rendered by the computing device prior to rendering the first resource. The first resource provides a first content item associated with a second application. The method also includes transmitting the set of data packets to an application server, receiving, from the application server, a deeplink, or a referrer tag, that was generated based on the first referrer data and the second referrer data, and retrieving, by the second application and using the deeplink or the referrer tag, content associated with the first referrer data and the second referrer data for display at the computing device within a content interface of the second application.
US12067430B2
An adaptive idle detection method determines whether software defined data centers (SDDCs) in a hyperconverged infrastructure (HCI) environment are idle. Idleness may be quantified via a coefficient of variation (CV) against resource usage, so as to adapt the idle detection method to SDDCs with different hardware specifications and workloads. Management overhead may also be filtered out by the idle detection method, and the idle detection method may use idleness scores to further reduce overhead.
US12067425B2
A computer-implemented system, method and computer program product for provisioning cloud computing resources that includes: converting a hand sketch representation of cloud computing resources to a digital image with metadata; generating a cloud deployment representation from the digital image with metadata; preparing cloud deployment manifest and configuration files from the cloud deployment representation; converting the cloud deployment manifest and configuration files into input data to be used to provision cloud computing resources; and transmitting the input data to a cloud computing vendor to provision the cloud computing resources.
US12067422B2
A control plane in a computing system receives a request to perform a management task on a set of computing system resources. The control plane identifies a target scope on which the management task is to be performed and dynamically obtains permissions, for this specific request, to perform the management task on the resources in the identified target scope.
US12067415B1
Various embodiments include systems and methods pertaining to a network sensor host configured to implement a receive side scaling (RSS) configuration component in a security environment. The RSS configuration component may be used to automatically generate an RSS configuration comprising one or more settings customized for the network sensor host based at least in part on hardware information of the network sensor host. In some embodiments, the RSS configuration may be applied to change settings of a network interface driver of the network sensor host, e.g., to implement RSS and multithreading for network sensor tasks.
US12067410B2
A computing system that provides virtual computing services may generate and manage remote computing sessions between client computing devices and virtual desktop instances hosted on the service provider's network. A computing resource instance manager may monitor connections to and disconnections from a virtual desktop instance during particular time periods, and may apply a resource management policy to determine whether and when to shut down an underlying virtualized computing resource instance following a disconnection (e.g., immediately, after some period of time, or only between certain hours). A storage volume for the virtual desktop instance may be detached during a shutdown. In response to a reconnection request, the virtualized computing resource instance (or another such instance) may be restarted and the storage volume may be reattached. The computing resource instance manager may develop a model for predicting when to shut down or restart an instance based on historical data or machine learning.
US12067396B2
Techniques related to executing instructions by a processor comprising receiving a first instruction for execution, determining a first latency value based on an expected amount of time needed for the first instruction to be executed, storing the first latency value in a writeback queue, beginning execution of the first instruction on the instruction execution pipeline, adjusting the latency value based on an amount of time passed since beginning execution of the first instruction, outputting a first result of the first instruction based on the latency value, receiving a second instruction, determining that the second instruction is a variable latency instruction, storing a ready value indicating that a second result of the second instruction is not ready in the writeback queue, beginning execution of the second instruction on the instruction execution pipeline, updating the ready value to indicate that the second result is ready, and outputting the second result.
US12067388B2
Techniques are disclosed for updating a trusted software and another software, which may include receiving a software update package that comprises a trusted updated software component, a trusted updated software booting metadata, another updated software component, and another updated software booting metadata. The trusted updated software component may belong to an updated version of the trusted software, and the trusted software may have a certain trust level. The other updated software component may belong to an updated version of the other software, and the other software may have a trust level that is lower than the certain trust level. At least a part of the trusted updated software booting metadata may comprise retrieval information for retrieving, during a booting process, at least a portion of the other software booting metadata.
US12067385B2
Disclosed methods may push a capsule update including a best known configuration-compute express link (BKC-CXL) firmware update to a boot time memory area. Following a platform reboot, BKC-CXL firmware update operations are performed. The update operations include mapping a BKC-CXL runtime memory area to a non-volatile BKC store, identifying current CXL attributes from the runtime memory area, extracting the firmware update, creating one or more BKC-CXL objects from the firmware update to enable dynamic configuration of CXL parameters, comparing current CXL attributes with stored CXL attributes to identify CXL attribute changes, and saving information indicative of the CXL attribute changes back to the non-volatile BKC store. Following a subsequent reboot, regular boot path operations are performed, including identifying existing CXL attributes indicated in the non-volatile BKC store and responsive to detecting a flag set to apply vendor pushed dynamic CXL attributes, obtaining BKC-CXL recommendations from an ML inference engine.
US12067384B2
Systems and methods for updating firmware in an audio device, such as a soundbar, operatively connected to a Smart TV, are shown and described. Firmware update data is transmitted to the audio device via an audio return channel (ARC) of an HDMI cable. In certain of the systems, the firmware update data is transmitted to the audio device when no audio is being transmitted to or played by the audio device. In other systems, the firmware update data and real-time audio data are multiplexed by the Smart TV and are sent to the audio device via the audio return channel for subsequent demultiplexing and playback of the audio.
US12067374B2
A device is provided. In some examples, the device includes a division logic circuit having input lines including a first least significant input line. The division logic circuit further includes temporary output lines including a second least significant line. The device also includes a first multiplexer having a first data input coupled to the first least significant input line. The first multiplexer further includes a second data input coupled to the second least significant line.
US12067373B2
The present disclosure advantageously provides a system including a memory, a processor, and a circuitry to execute one or more mixed precision layers of an artificial neural network (ANN), each mixed precision layer including high-precision weight filters and low precision weight filters. The circuitry is configured to perform one or more calculations on an input feature map having a plurality of input channels (cin) using the high precision weight filters to create a high precision output feature map having a first number of output channels (k), perform one or more calculations on the input feature map using the low precision weight filters to create a low precision output feature map having a second number of output channels (cout−k), and concatenate the high precision output feature map and the low precision output feature map to create a unified output feature map having a plurality of output channels (cout).
US12067369B2
Provided are computer implemented systems and methods for providing improved language translation, including translation of input text to an output translated text Selement. This may include providing for rule-based language translation. This may further include a plurality of machine translation models adapted to different translation domains. A machine translation selector is described that selects an in-domain machine translator from the plurality of machine translation models based on an input text element. The selected in-domain machine translator may generate a first translated text element from the input text element. A post-editor module may generate a second translated text element by predicting a post-edit to the first translated text element. The first translated text element and the second translated text element are evaluated by a quality evaluation model that determines a first metric associated with the first translated text element and a second metric associated with the second text element.
US12067368B1
A computing device receives user selection of a data source and a lens that specifies supplemental metadata for the data source. The device receives user input to specify a natural language command directed to the data source. In response to the user input, the device determines one or more data fields and/or data values from the data source for interpreting the natural language command in accordance with the metadata from the lens. The device translates the natural language command into one or more executable database queries referencing data fields and/or data values specified in the natural language command. The device executes the one or more database queries to retrieve data from the data source. The device also generates and displays a data visualization using the retrieved data.
US12067367B2
A computer implemented method for the automated analysis or use of data is implemented by a voice assistant. The method comprises the steps of: (a) storing in a memory a structured, machine-readable representation of data that conforms to a machine-readable language (‘machine representation’); the machine representation including representations of user speech or text input to a human/machine interface; and (b) automatically processing the machine representations to analyse the user speech or text input.
US12067356B2
Provided is a software process that can dynamically identify and display a plurality of category values of an electronic file based on a file name assigned to the electronic file. Thus, the software can automatically populate a user interface with details about content within the electronic file based on the file name. In one example, the method may include receiving an electronic computer file having a file name, identifying a subset of characters within the file name which correspond to a data category, mapping a value of the identified subset of characters to a category value in the data category, displaying an identifier of the electronic file on a user interface, and dynamically populating a predefined field within the user interface corresponding to the data category with the mapped category value.
US12067354B2
Simplification of complex input strings is utilized for user convenience, such that the user may input a complex input string in lieu of performing an external calculation and inputting the result thereof. The simplification identifying at least one operator in the complex input string indicative of a mathematical operation, identifying a first sub-string and a second sub-string in the input string, comparing the first sub-string to an expectation identification associated with the input field to determine a significance of the first sub-string, comparing the first sub-string to a range expectation associated with said significance to determine if the first sub-string meets the range expectation, and calculating a simplified input string by performing the mathematical operation on the first sub-string and the second sub-string.
US12067352B2
A non-transitory computer readable medium with an executable revision history integration program for causing at least one computer executes: a procedure for acquiring data on at least one document having at least one editing history including a name of an editor of the document; a procedure for collectively converting at least one name of an editor included in the editing history in the acquired data; and a procedure for deleting addition and deletion histories where a character string in the acquired data has been added and deleted by the same editor's name, as a result of the conversion of the name of the editor.
US12067351B2
Described herein is a computer implemented method. The method includes accessing, by a computer system including a processing unit, portable document format (PDF) data defining a plurality of glyphs, sorting the plurality of glyphs into one or more glyph sets, and calculating an expanded glyph bounding box for each glyph. Each glyph set is processed to determine one or more text areas, each text area being associated with one or more glyphs from the glyph set which have collectively overlapping expanded bounding boxes.
US12067348B1
Smart glasses may be used for intelligent UI webpage optimization leveraging UI and viewer extraction telemetry. The smart glasses may include an eyeball tracking device. Methods may include tracking the movement of the eye of a user on the UI webpage. Methods may further include capturing a segment of data within the movement of the eye of a user on a UI webpage and storing the segment of data in memory on the smart glasses. Methods may also include updating the UI webpage based on an instruction in the data segment transmitted to the UI. Additionally, methods may include autofilling the data segment at the point of user eye movement on the UI webpage. Eyeball movement data may transfer from the smart glasses to UI webpage code.
US12067346B2
Systems and methods for providing a machine learning-powered framework to transform overloaded text documents is provided. The system generates a plurality of candidate templates offline. During runtime, the system accesses a text document and analyzes the text document to identify segmentation data. The segmentation data can indicate a plurality of segments derived from the text document. The system then accesses a plurality of candidate templates, whereby each candidate template comprises a plurality of pages having a different background element that shares a common theme. The plurality of candidate templates are ranked based on at least the segmentation data. The network then generates multiple presentation pages for each of a predetermined number of top ranked candidate templates by incorporating each of the plurality of segments into a corresponding page of the plurality of pages for each of the top ranked candidate templates. The multiple presentation pages are presented for each of the top ranked candidate templates as a recommendation.
US12067345B2
The embodiments of the display disclosure relate to a table displaying method, device, and medium, wherein the method includes: determining a displaying mode of a table on a current interface; and in response to a browse triggering operation on the table, displaying table information matched with a displaying size of the current interface according to the displaying mode.
US12067344B2
A document management system generates and validates online documents. The document management system enables the customization of an online document through various rendering parameters for customizing the appearance of agreement content rendered to a receiving entity. The document management system may validate the rendering parameters of customized online documents to determine a likelihood that the documents are valid. For example, the system may determine a likelihood that an online document generated with prechecked checkbox is invalid. The document management system may recommend custom templates for online documents or modifications to an online document that may increase a likelihood of achieving an originating entity's objective. For example, the document management system can apply a machine-learned model to recommend a target rendering parameter for inclusion that would increase the likelihood of a receiving entity clicking an “Agree” button.
US12067336B2
An information processing apparatus includes a processor configured to: acquire multiple pieces of circuit configuration information corresponding to multiple split circuits forming a processing circuit configured to execute a single processing function; and cause reconfiguration processes that reconfigure multiple partial reconfiguration regions into the multiple split circuits corresponding to the multiple pieces of acquired circuit configuration information to be executed in parallel.
US12067327B2
A display apparatus, which is electrically connected to a host, is provided. The display apparatus includes a display panel, a display controller, an audio interface, and an audio-processing chip. The display controller is configured to control displaying of the display panel. The audio interface includes a detection circuit configured to detect whether a pair of headphones is plugged into the audio interface. The audio-processing chip is configured to receive an audio signal from the host, and to convert the audio signal into an output audio signal. When the detection circuit detects that the pair of headphones has been plugged into the audio interface, the audio-processing chip adjusts strength of the output audio signal according to a headphone-volume setting of the display apparatus, and transmits the adjusted output audio signal to the pair of headphones for playback through the audio interface.
US12067325B2
A screen sharing system includes a first display apparatus including first circuitry; and a second display apparatus including second circuitry. Both of the first display apparatus and the second display apparatus display an input screen. The first circuitry of the first display apparatus is configured to receive first hand drafted input data that is input to the first display apparatus, and set an edit authority, of a user of the second display apparatus, for the first hand drafted input data. The second circuitry of the second display apparatus is configured to restrict editing of the first hand drafted input data based on the edit authority of the user set by the first display apparatus.
US12067321B2
According to various, but not necessarily all, embodiments there is provided an apparatus comprising means for: determining a direction of arrival of sound from a sound source relative to a user device using at least one captured audio signal; controlling an angle of orientation of visual information displayed on a display, wherein the angle of orientation of the visual information is at least partially dependent upon the determined direction of arrival of sound from the sound source relative to the user device.
US12067319B2
An information processing device includes: a processor configured to: specify plural parts for manufacturing an ordered product; specify plural processes required from receiving an order of the product to completion of the product; for an intermediate part generated by processing at least two of the plural parts, generate an object indicating the intermediate part; for each of the plural parts, generate work objects indicating processes required for manufacturing the part, for a part to be manufactured by offset printing among the plural parts, generate work objects that treat printing plate parts corresponding to the number of plates obtained as a result of prepress as parts; and create workflow information that arranges and displays, the work objects indicating the processes required for manufacturing the part in an order of the plural processes, and relates and displays, for each of the plural parts, work objects indicating processes executed continuously, wherein in the workflow information, the intermediate object indicating the intermediate part is associated with the work objects for the at least two parts used to generate the intermediate part.
US12067318B2
A printing apparatus includes a first obtaining unit configured to obtain information about a subscription service related to the printing apparatus, an acceptance unit configured to accept execution of processing of job data, and a first control unit configured to execute the processing of the job data in a case where the obtained information is information indicating that a contract of a first subscription service has been concluded and the processing of the job data accepted by the acceptance unit is processing not involving a print operation, and not execute the processing of the job data in a case where the obtained information is information indicating that a contract of a second subscription service different from the first subscription service has been concluded and the processing of the job data accepted by the acceptance unit is processing not involving the print operation.
US12067308B2
A system and method for generating a secure digital copy of content associated with a non-fungible token (NFT). The system may include, be part of, or be in communication with a print device. The system will receive, from a requesting entity, a print request to print digital content that is associated with an NFT. The system will then access a user profile of the requesting entity to identify a digital wallet associated with the requesting entity. The system will determine whether the digital wallet indicates that the requesting entity owns the NFT. In response to determining that the digital wallet indicates that the requesting entity owns the NFT, the system will generate a print job that comprises a set of instructions to print the digital content, optionally with a verification code. The system may then cause the print device to print the digital content.
US12067307B2
A document management apparatus includes a processor configured to: receive information on document data which is a target of image formation, and authentication destination information; issue information on a reservation associated with the received information on the document data and the received authentication destination information; on receipt of information on a reservation, obtain authentication information of a user who has entered the information on the reservation; request an authentication destination specified from authentication destination information associated with the information on the reservation to perform authentication using the obtained authentication information of the user; and, in a case of successful authentication, apply control to permit an output of document data specified from information on document data associated with the information on the reservation.
US12067305B2
A method for controlling an information processing apparatus includes a notifying step of, if an error is occurring in a printing apparatus under non-completion of an initial setting process for the printing apparatus when a predetermined program is operating on the information processing apparatus, executing a notification process for notifying a user of the error occurring in the printing apparatus on the basis of error information, the initial setting process being a process executed in response to the user turning on the printing apparatus for a first time after the printing apparatus is unpacked, and not executing the notification process if an error is occurring in the printing apparatus under completion of the initial setting process for the printing apparatus when the predetermined program is operating on the information processing apparatus.
US12067303B2
An image forming system includes an image forming apparatus includes an operation panel, the image forming apparatus forming an image based on image data; and a user terminal having a printer driver capable of configuring preliminary setting information pertaining to formation of the image. The user terminal is able to transmit the preliminary setting information configured by the printer driver to the image forming apparatus. When the image forming apparatus is accessed by a user after receiving the preliminary setting information, the image forming apparatus transitions to an image-data acquisition standby state to accept an operation to acquire image data, and when the image data is acquired, the image forming apparatus forms an image based on the image data by applying the preliminary setting information.
US12067302B2
Spot aware print workflow techniques and system are described. In an implementation, a digital document is received for printing that includes a plurality of objects. Spot functionality is detected as corresponding to a respective object based on object properties detected for the respective object. One or more spot planes for are generated based on the spot functionality and a determination is made of color values for the one or more spot planes, respectively, based on context data describing a context, in which, the one or more spot planes are to be printed. The spot planes having the color values are output for printing by a print mechanism.
US12067297B2
Disclosed is a storage system that performs a drive data layout change while maintaining I/O functionality. The storage system creates a redundancy group for forming a redundant configuration of data to be stored in a storage drive, and stores data of the redundancy group in a plurality of the storage drives. A processor in a storage node discards data stored in a unit storage area, recovers the discarded data according to a changed data format, and re-stores the recovered data in the storage drive. The processor in the storage node performs an I/O process on the data to be discarded during a data format change, by achieving recovery based on the data of the redundancy group that is stored in an area other than the unit storage area where the data format is to be changed.
US12067292B2
A method of operating a host device includes transmitting a read command that requests information related to an eye open monitor (EOM) operation performed in a memory device to the memory device, and receiving a response signal including the information related to the EOM operation performed in the memory device from the memory device.
US12067277B2
A method for tracking a progress of data copying for a live migration includes transferring, by a storage controller, a first data structure to a live migration server, the first data structure including a first status identifier indicating a location of a source data to be copied from a source storage to a target storage, and selectively generating or selectively clearing, by the storage controller, a second status identifier in or from a second data structure, based on a first current copying location of the live migration server, the second status identifier indicating a location of a first user data write to the source storage.
US12067276B2
The present disclosure includes apparatuses and methods related to a command bus in memory. A memory module may be equipped with multiple memory media types that are responsive to perform various operations in response to a common command. The operations may be carried out during the same clock cycle in response to the command. An example apparatus can include a first number of memory devices coupled to a host via a first number of ports and a second number of memory devices each coupled to the first number of memory devices via a second number of ports, wherein the second number of memory devices each include a controller, and wherein the first number of memory devices and the second number of memory devices can receive a command from the host to perform the various (e.g., the same or different) operations, sometime concurrently.
US12067275B1
Techniques are disclosed relating to an I/O agent circuit. The I/O agent circuit may include a memory bank and be coupled to a set of devices. The I/O agent circuit may assign a device of the set of devices to a subdomain of a plurality of subdomains implemented for the memory bank. The I/O agent circuit may store, in that memory bank, a set of transactions of the device in association with the subdomain assigned to the device. The I/O agent circuit may execute the set of transactions such that transactions stored in the memory bank in association with other ones of the plurality of subdomains than the subdomain assigned to the device do not block execution of the set of transactions.
US12067273B2
A technique for achieving data mobility between storage systems having different block sizes includes identifying a baseline size that is common to the block sizes of the storage systems. The technique further includes generating fingerprints of blocks based on extents having the common baseline size. Fingerprint-based data mobility is then achieved by comparing extent-based fingerprints, or combinations thereof, across different storage systems to identify matching data.
US12067271B2
In some implementations, a computing device may configure a new device based on a current state of an old device, including settings, preferences, and other user data. The data may be transferred from the old device to the new device, and then relocated according to a manifest that details positions of the data on the old device. The destination device may be rebooted into a configuration mode to allow for the relocation of the transferred data, and then rebooted again to configure the destination device to provide access to the data in its respective relative locations on the destination device.
US12067265B2
Systems and methods are disclosed for reducing idle power usage of a storage device. The storage device can include a storage media configured, a data interface configured to connect to the host device, a media controller, and a bridge controller. The bridge controller can be further configured to, in response to receiving an idle status message from the media controller, save state data of the media controller, send a shutdown command to the media controller to stop it from using power. The bridge controller can be further configured to, in response to receiving a read operation or a write operation from the host device, start power to the media controller, provide the media controller with the saved state data, receive data responsive to the read operation or the write operation from the media controller, and transmit the responsive data to the host device.
US12067264B2
A processing device in a memory sub-system receives a request to perform a memory access operation on a memory device, determines a memory segment identifier associated with the memory access operation, and applies a hash function to the memory segment identifier to generate a hashed seed. The processing device further provides the hashed seed to a pseudo-random number generator to generate a randomized string, and performs the memory access operation on the memory device using the randomized string.
US12067261B2
A serial presence detect (SPD) device includes a region of nonvolatile memory for SPD data and an additional region for other (e.g., vendor) use. The additional region may be subdivided into write protect regions that can be individually and independently write protected. To configure the write protection, a password key scheme is used to enter a mode whereby the write protection attributes may be configured. Another password key scheme is used to exit the write protection configuration mode.
US12067260B2
A method of processing transactions associated with a command in a storage system is provided. The method includes receiving, at a first authority of the storage system, a command relating to user data. The method includes sending a transaction of the command, from the first authority to a second authority of the storage system, wherein a token accompanies the transaction and writing data in accordance with the transaction as permitted by the token into a partition that is allocated to the second authority in a storage device of the storage system.
US12067249B2
A multi-tenant database may maintain a plurality of datasets on a memory device that is subject to degraded operation caused by a subset of possible state transitions within the device's memory cells. A storage engine may identify entropy characteristics of datasets, independently of other datasets hosted on the memory, and use the entropy to construct a symbol table that maps from data within the dataset to symbols that may be stored on the memory device with a minimized number of state transitions.
US12067239B2
Systems, apparatuses, and methods related to data stripe protection are described. An error management component can process multiple read/write/recovery requests concurrently. When read/write requests are to be processed on respective strips of a stripe, the error management component can process (e.g., concurrently) the read/write requests to determine a quantity of errors within each one of the strips and the determined quantity can be used to further determine whether to access other memory portions to correct the determined quantity.
US12067235B2
A data storage device includes multiple storage modules. Each storage module includes a storage which having a memory device and a first memory controller and a second memory controller. The first memory controller is coupled to the memory device for accessing the memory device. The second memory controller is coupled to the storage for accessing the storage. The first memory controller includes a first transmission interface. The second memory controller includes a second transmission interface. The first memory controller and the second memory controller communicate with each other through the first transmission interface and the second transmission interface.
US12067222B2
To enable a person to quickly and easily establish an audio profile for a TV, speaker, or other audio device, an audio profile is downloaded to the TV or speaker (and stored, if desired). The profile in the recipient device can be one of many that can be interchanged quickly on-the-fly. A voice assistant may enable the person to pick an audio profile from a list of audio profiles or user interface, either on the TV or the device the profile was created on. Using either method, voice assistant or UI, the profile can be downloaded from a mobile or PC device where the profile was created, or from the cloud where a previously created profile was uploaded and stored. A dual UI using voice and visual on-screen options makes the profiles accessible to most people.
US12067215B2
Methods and apparatus related to determining a triggering event of a user, selecting media relevant to the triggering event, and providing the selected media to the user. Some implementations are directed to methods and apparatus for determining a past event of the user that is indicative of past interaction of the user with one or more past entities and the triggering event may be determined to be associated with the past event. The media selected to provide to the user may contain media that includes the one or more past entities associated with the past event and the media may be provided to the user in response to the triggering event.
US12067213B2
Various aspects disclosed relate to a method of creating a manifest record for an outgoing electronic communication. The method includes identifying at least one document to be sent with the outgoing electronic communication, receiving a message comprising unstructured text to be inserted into the outgoing electronic communication, generating a manifest record for attachment to the outgoing electronic communication, attaching the at least one document and the manifest record to the outgoing electronic communication, and sending the outgoing electronic communication with the document and the manifest record attached. The manifest record includes structured data specifying the document type and the message type, wherein generating the manifest record includes assigning the message type associated with the message and the document type associated with the at least one document to the manifest record.
US12067212B2
A method and a client device for dynamically replacing interactive content of a quick setting bar are disclosed. The method comprises: monitoring activity of a user on a terminal client and the terminal client state. Identifying content currently presented to the user. Selecting one or more graphical user interface elements to present on the quick setting bar. The one or more graphical user interface elements have been selected based on a content list acquired from a storage according to data and a user profile calculated based on the user activity and terminal client state. Moreover, this comprises updating the quick setting bar to display the one or more graphical user interface elements while the currently presented content is displayed by a presentation unit of the terminal client.
US12067211B2
A method and associated apparatus provide for displaying, by a terminal, a first interface in response to an operation input by a user. Input by the user indicates to shrink the first interface, and display an interface including the shrunk first interface. In response to a minimization operation input by the user, a second interface is displayed on which the first interface is in a minimized state, a third minimized interface is displayed in the same way. A drop-down menu of a status bar is displayed in response to user input A multi-window display interface in response to a selection operation input by the user.
US12067210B2
Orthodontic devices such as aligners, palatal expanders, retainers, and dental implants can be used to adjust the position of teeth and to treat various dental irregularities. To help the clinician or doctor (i.e., orthodontist) design and plan the subject's treatment plan, a 3D digital model of the subject's teeth, dentition, and gingiva can be constructed from a 3D scan of the subject's mouth, teeth, dentition, and gingiva. The 3D model of the subject's teeth and dentition can be displayed graphically to the doctor on a display using a computing system with memory and software.
US12067209B2
A light emitting user input device can include a touch sensitive portion configured to accept user input (e.g., from a user's thumb) and a light emitting portion configured to output a light pattern. The light pattern can be used to assist the user in interacting with the user input device. Examples include emulating a multi-degree-of-freedom controller, indicating scrolling or swiping actions, indicating presence of objects nearby the device, indicating receipt of notifications, assisting pairing the user input device with another device, or assisting calibrating the user input device. The light emitting user input device can be used to provide user input to a wearable device, such as, e.g., a head mounted display device.
US12067205B2
A display device including a substrate having an active area and a non-active area having first to fourth areas, a light-emitting element on the substrate, a touch layer having a main touch area overlapping the active area, and an encapsulation layer between the light-emitting element and the touch layer, in which the first area is between the active area and the second area, the third area is between the second and fourth areas, the touch layer includes touch electrodes and touch lines connected to the touch electrodes, the touch lines include a first touch line part overlapping the first area and a second touch line part overlapping the third area, the first touch line part includes first and second touch conductive layers of the touch layer, and the second touch line part includes the first touch conductive layer and does not include the second touch conductive layer.
US12067201B2
A touch sensor controller for driving a touch sensor that is stacked on a display panel and includes driving electrodes and receiving electrodes crossing the driving electrodes, the touch sensor controller including: a driving circuit configured to sequentially provide driving signals to the driving electrodes; a read-out circuit configured to, in response to the driving signals, generate touch data based on first sensing signals received from the receiving electrodes and generate display noise data based on a second sensing signal received from a first driving electrode to which a driving signal of the driving signals is not applied from among the driving electrodes; and a touch processor configured to determine whether a touch input has occurred on the touch sensor based on the touch data and the display noise data.
US12067190B1
A touch layer assembly includes a substrate layer and effective touch lines and sensing electrodes that are disposed thereon. A sensing electrode is coupled to at least one effective touch line; the sensing electrode includes sensing main lines, each of at least one sensing main line is composed of first sensing line segments and second sensing line segments that are alternately connected; at least one sensing electrode further includes third sensing line segments connected to a sensing main line; the sensing electrodes include a first sensing electrode and a second sensing electrode that are adjacent in the first direction, and in the first sensing electrode and the second sensing electrode, a disconnected point where two sensing main lines adjacent in a same extension direction are disconnected is located on a second sensing line segment at an end of a sensing main line of the two sensing main lines.
US12067183B2
Touch responsive displays that may be integrated into a wide variety of non-transparent, non-glass surfaces to provide on-demand human computer interfaces that blend with the environment, i.e., remain invisible unless activated, effectively adding digital user interfaces (UI) to non-technology products and surfaces. The interactive display devices are frameless assemblies of a sensor layer, a light layer, and a support layer housing a microcontroller, wherein the device is configured to be positioned beneath a non-transparent surface layer with the sensor layer arranged below the surface layer.
US12067179B2
A display device is provided and includes common electrodes overlapping pixels; common driver configured to supply voltage during a display period and an AC drive signal for touch detection during touch detection period; source lines connected to columns of pixels; source driver configured to supply an image signal; gate lines connected to rows of the pixels; select transistors connected between source driver and source lines; and controller configured to supply DC control signal to gate terminals of select transistors during display period, supply an AC control signal to gate terminals of select transistors during touch detection period, wherein AC control signal is synchronous with AC drive signal.
US12067172B2
Method and apparatus is disclosed for a user to communicate with an electronic device. A processor receives user intention actions comprising facial expression (FE) information indicative of facial expressions and body information indicative of motion or position of one or more body parts of the user. When the FE or body information crosses a first level, the processor starts generating first signals based on the FE or body information to communicate with the electronic device. When the FE or body information crosses a second level, the processor can end generation of the first signals or modify the first signals. An image processing or eye gaze tracking system can provide some FE information or body information. The signals can modify attributes of an object of interest. Use of thresholds that are independent of sensor position or orientation with respect to the user's body are also disclosed.
US12067159B2
Examples of augmented reality (AR) environment control advantageously employ multi-factor intention determination and include: performing a multi-factor intention determination for summoning a control object (e.g., a menu, a keyboard, or an input panel) using a set of indications in an AR environment, the set of indications comprising a plurality of indications (e.g., two or more of a palm-facing gesture, an eye gaze, a head gaze, and a finger position simultaneously); and based on at least the set of indications indicating a summoning request by a user, displaying the control object in a position proximate to the user in the AR environment (e.g., docked to a hand of the user). Some examples continue displaying the control object while at least one indication remains, and continue displaying the control object during a timer period if one of the indications is lost.
US12067158B2
Disclosed is an object interaction method, comprising: determining a pose of a terminal device under a real environment coordinate system; according to pixel information and depth information of a first object, determining a pose of the first object relative to the terminal device; according to the pose of the terminal device under the real environment coordinate system and the pose of the first object relative to the terminal device, determining a pose of the first object under the real environment coordinate system; determining a pose of a second object under the real environment coordinate system; and according to the pose of the first object under the real environment coordinate system and the pose of the second object under the real environment coordinate system, controlling the first physical object and the second virtual object to interact with each other.
US12067157B2
The technology disclosed can provide capabilities such as using motion sensors and/or other types of sensors coupled to a motion-capture system to monitor motions within a real environment. A virtual object can be projected to a user of a portable device integrated into an augmented rendering of a real environment about the user. Motion information of a user body portion is determined based at least in part upon sensory information received from imaging or acoustic sensory devices. Control information is communicated to a system based in part on a combination of the motion of the portable device and the detected motion of the user. The virtual device experience can be augmented in some implementations by the addition of haptic, audio and/or other sensory information projectors.
US12067137B2
Computing platforms, methods, and storage media for processing a data access request are disclosed. Exemplary implementations may: receive, at an apparatus, a data access request from a communication device and via a network; and generate, at the apparatus and based on the received data access request, a revocable 1:1:1 token that authorizes data sharing for a specific combination of third party application-aggregator-institution. Exemplary implementations may transmit the revocable 1:1:1 token for storage in a token database, and may store the 1:1:1 tokens in a token database associated with an institution related to the data access request; this allows access to be managed by the user and controlled by the institution, without relying on the aggregator. Exemplary implementations may provide a dashboard enabling a user to individually remove apps from data sharing, based on management of the 1:1:1 tokens.
US12067134B2
A processor may identify that one or more client-side applications have been initiated. The processor may identify a browser container. The processor may securely run the one or more client-side applications in the browser container. A website server may collect data that is to be transferred to a browser and sent back from the browser, and the browser container may be associated with the browser. The processor may permit a transfer and sending of the data between the website server and the browser. The transfer and sending of the data may include session specific information that is to be cached on a client-side.
US12067122B2
Detecting whether or not an open source software package has functionality which is not described by the source code used to build the open source software package. To do so, in one embodiment, this is done by accessing source code used to build the open source software package. The open source software package is built from the source code. After the open source software package has been rebuilt, then it is computed whether or not the rebuilt package accomplishes the same functions as the open source software package. Finally, if the rebuilt package does not accomplish the same functions as the open source software package, an alert is raised.
US12067111B2
A health ticket minting process operates in a secure enclave on a computing device to ensure liveness of the enclave should a maliciously-compromised operating system deny service to starve the enclave. Cryptographically-secured health tickets provided by the minting process reset an authenticated watchdog timer (AWDT) that reboots the device from a hardware-protected recovery operating system if the timer expires. The health tickets are written to a secure channel using a symmetric key that is provisioned by repurposing an existing Intel SGX (Software Guard Extension) Versioning Support protocol that enables migration of secrets between enclaves that have the same author. In the event that the enclave fails to make forward progress and health tickets are not minted, then the AWDT expires and forces the reboot and re-imaging to a known good state to evict the malware from the computing device.
US12067110B2
A method and apparatus for establishing a software root of trust (RoT) ensures that the state of an untrusted computer system contains all and only content chosen by an external verifier and the system code begins execution in that state, or that the verifier discovers the existence of unaccounted for content. The method enables program booting into computer system states that are free of persistent malware such that an adversary cannot retain undetected control of an untrusted system.
US12067106B2
Disclosed are example methods, systems, and devices that allow for generation and maintenance of a central identity databank for a user's digital life. The identity databank may include identity elements with payload values and metadata values corresponding immutable attributes of the user. A multifactor identity authentication protocol allows service provider devices to more reliably validate transactions with user devices via an identity system. The identity databank may include passwords, which may be generated by the identity system linked to user accounts and/or service providers. The passwords may be provided to service provider devices, eliminating the need for users to conceive of a multitude of varying passwords for the user's accounts.
US12067102B2
The present disclosure provides a security verification method and a relevant device, to increase the difficulty of cracking. The method includes: receiving, from a verification requester, a request for pulling a sliding verification code; acquiring the sliding verification code which includes a slider and a second endpoint image obtained by performing filter processing on a first endpoint image; and returning the sliding verification code to the verification requester. The first endpoint image and the slider are generated from the same original image, and the slider and the second endpoint image are returned to the verification requester finally. The second endpoint image is obtained by performing image processing on the first endpoint image, and after the image processing, in an area outside the slider placement area, pixel values of pixels in the second endpoint image are different from pixel values of corresponding pixels in the original image.
US12067094B2
A monitoring system is disclosed. The monitoring system includes a monitoring server that is configured to receive a personally identifying code from a visitor to a property monitored by the monitoring system. The monitoring system includes one or more sensors that transmit sensor data to the monitoring server and that are configured to capture a biometric identifier from the visitor to the property monitored by the monitoring system. The monitoring system is configured to compare the received personally identifying code to a stored personally identifying code. The monitoring system is configured to compare the received biometric identifier to a stored biometric identifier. The monitoring system is configured to determine a likelihood that the visitor is the known person. The monitoring system is configured to determine that the likelihood that the visitor is the known person does not satisfy a threshold. The monitoring system is configured to generate an alarm condition.
US12067091B2
Some aspects of this disclosure are directed to implementing hardware-based obfuscation of digital data. For example, some aspects of this disclosure relate to a method, including performing a capture operation that loads a plurality of primary input (PI) bits into corresponding shift registers of a plurality of test data registers (TDRs) disposed on one or more digital semiconductor devices and configured to store a plurality of secret information bits. The method further includes performing a sequence of shift operations on the plurality of TDRs to obtain a plurality of output bits. The method further includes applying, by an authenticating processor, a derivation function on the plurality of output bits to extract the plurality of secret information bits thereby authenticating the one or more digital semiconductor devices.
US12067082B2
A base pathway of a computerized two-pathway video action recognition model is trained using a plurality of labeled video samples. The base pathway is trained using a plurality of unlabeled video samples at a first framerate. An auxiliary pathway of the computerized two-pathway video action recognition model is trained using a plurality of the unlabeled video samples at a second framerate, the second framerate being slower than the first framerate, wherein the training of the base pathway and the training of the auxiliary pathway result in a trained computerized two-pathway video action recognition model. A candidate video is categorized using the trained computerized two-pathway video action recognition model and the categorized candidate video is stored in a computer-accessible video database system for information retrieval.
US12067075B1
In a general aspect, an optimization problem is solved using a hybrid computing system. A classical processor unit receives a first data structure that represents the optimization problem. The classical processor unit executes a branch-and-bound process on the first data structure to generate values for a first subset of elements of a solution to the optimization problem. A second data structure is generated based on the first data structure and the first subset of elements. The second data structure represents a reduced version of the optimization problem. A quantum processor unit and a classical processor unit are used to execute a quantum approximate optimization algorithm (QAOA) on the second data structure to generate values for a second subset of the elements of the solution to the optimization problem. The first subset and second subset are combined to obtain the solution to the optimization problem.
US12067074B2
Disclosed herein are embodiments of a system and method for the dynamic provisioning of static content. In one embodiment, information presented on a content delivery system can be refreshed based on information published on a content management system. One embodiment can interface the content delivery system and the content management system at the page level. More specifically, content dependencies across pages employing the same content or portion(s) thereof can be tracked in a timely, accurate manner. Upon receiving a notification of a change to the content or a portion thereof from the content management system, a content generation system may operate to determine, based on the dependencies, what pages are affected by the change and, based on the determination, dynamically regenerate any and all affected pages. The regenerated pages may then be stored and/or pushed to the web tier for delivery to end users.
US12067070B2
Systems and methods for transferring link context to a web browser. An example method includes receiving, by a web browser, a web address from a desktop application based on a selection of a link in document displayed in the desktop application; receiving, by a web browser from the application, link context for the selected link, the link context including an identification of the desktop application and an identification of the document; loading a web page corresponding to the received web address; based on the link context, identifying a browser-based application corresponding to the desktop application; launching the browser-based application within the web browser; transmitting the link context to the browser-based application; and displaying at least a portion of the document within the web browser.
US12067066B2
A method for changing an itinerary based on a user change request is disclosed. The method may commence with receiving an itinerary request associated with one or more passengers. The method may continue with receiving a user itinerary change request associated with the itinerary network. The method may continue with generating an itinerary object associated with the user itinerary change request. The method may continue with modifying the itinerary network based on the itinerary object. The method may continue with processing the itinerary network using a topology of the itinerary network to create a plurality of tuples, the plurality of tuples including at least flight tuples and hotel tuples. The method may continue with performing a content search for the plurality of tuples for each of the one or more passengers. The method may continue with generating feasible itinerary solutions based on results of the content searches.
US12067065B2
In certain embodiments, reference identifiers may be generated and embedded into a website's content. A request for a reference identifier to be embedded into first content on a first website may be obtained based on a user accessing the first website. Based on the request, interaction data related to the first website may be retrieved indicating that a prior user interacted with text on the first website and subsequently accessed a second website. A reference identifier related to the second website may be caused to be embedded into the text on the first website based on: (i) the second website comprising second content related to the text, (ii) the prior user interacting with the text on the first website, and (iii) the prior user accessing the second website after interacting with the first content on the first website.
US12067057B2
Systems and methods including one or more processors and one or more non-transitory storage devices storing computing instructions configured to run on the one or more processors and perform receiving a search request from an electronic device of a user; determining a first number of one or more first results for the search request and a second number of one or more second results for the search request; generating a pagination query using the first number of the one or more first results and the second number of the one or more second results; coordinating a search of one or more databases of records using the pagination query; and coordinating displaying one or more search result pages based on the search of the one or more databases of records, the one or more search result pages comprising at least one of the one or more first results and at least one of the one or more second results. Other embodiments are disclosed herein.
US12067050B1
Systems and methods for dynamically altering shared content are provided. A set of media items to be shared with users of a content sharing service is identified. The set of media items includes a first media item associated with a first media item type and multiple second media items each associated with a second media item type. Each of the second media items correspond to at least one of a geographic location or a content preference associated with client devices connected to the content sharing service. In response to receiving a request for content from a first client device of the client devices connected to the content sharing service, a second media item is identified among the second media items. The identified second media item corresponds to a geographic location or a content preference associated with the first client device. The set of media items is updated by replacing the multiple second media items with the identified second media items and the updated set of media items is transmitted to the first client device, in accordance with the request for content.
US12067042B2
A collaboration management system, comprising a database having stored operator information about the participating operators, the operator information of each operator comprising at least one operator class assigned to the respective operator; a data receiver configured to receive a data stream comprising a plurality of electronic messages from a plurality of communicating agents, each electronic message comprising at least one piece of information; a message parser operatively coupled with the data receiver, the message parser configured to parse the received electronic messages to extract pieces of information of the parsed electronic messages and to classify the electronic messages according to one or more ontologies from a set of pre-defined ontologies; a recommendation engine operatively coupled with the message parser and the database; and a data distributor operatively coupled with the recommendation engine.
US12067039B1
Systems and methods for providing user interfaces for configuration of a flow for extracting information from documents via a large language model are disclosed. Exemplary implementations may: present a user interface configured to obtain entry of user input from a user to select a set of exemplary documents; select one or more document classifications for the set of exemplary documents; select one or more extraction fields that correspond to individual queries; navigate between different portions of the user interface; present the set of document classifications; present a particular individual document in the user interface; present a set of extraction fields in the user interface, wherein the individual extraction fields present individual replies obtained from the large language model in reply to the individual queries; and/or perform other steps.
US12067035B2
The present disclosure provides a method for reporting a movement path and an electronic device. The method is applied to an intelligent locator and includes receiving, a movement path acquisition request sent by a reporting device within a reporting time threshold; acquiring a movement path including at least one piece of unreported location information from a database; and sending the movement path to the reporting device.
US12067029B2
Disclosed is an apparatus for metadata management and collection, which includes a settings managing unit that generates setting information of data obtained from a data source, a source managing unit that generates source information associated with the data source, a job managing unit that starts or stops a data collection job based on the source information, an object collecting unit that requests an external system for a list of metadata based on the setting information and the source information, a metadata importing unit that imports metadata from the list of the metadata based on the setting information and the source information, a data downloading unit that downloads target metadata of the imported metadata based on the setting information and the source information, and a queue managing unit that generates a data queue depending on a request of the job managing unit.
US12067012B2
In some examples, a first computing device may receive a first request from a second computing device. For example, the first computing device may be able to communicate with a plurality of database nodes, each database node maintaining a portion of a database distributed across the plurality of database nodes. Further, the first computing device may maintain a local cache of a subset of information maintained in the database. The first computing device may send a second request based on the first request to a first database node to cause the first database node to change the data in the database. In addition, the first computing device receives, from a message queue of a plurality of distributed message queues, a cache update message based on the change to the data in the database. The first computing device may update the local cache based on the cache update message.
US12067008B1
Systems and methods are described for display of metric data and log data in a graphical user interface. Metric data can be ingested from a first data source via a first ingestion path and log data can be ingested from a second data source via a second ingestion path. The first data source and the second data source may be distinct, disparate data sources and the first ingestion path and the second ingestion path may be distinct, disparate ingestion paths. The metric data can be displayed in a first area of the graphical user interface and the log data can be displayed in a second area of the graphical user interface. Input can be received identifying a selection of a portion of the metric data for display and the log data can be filtered based on the selection to identify a portion of the log data for display.
US12066999B1
At a lock-less data management service, a multi-phase commit of a transaction is performed. The multi-phase commit includes a read set validation phase (in which a first set of timestamp-based conditions is used to determine whether the transaction has a read-write conflict), a pre-commit timestamps update phase (in which respective pre-commit timestamps associated with data items of the transaction's write set are set to a proposed commit time after verifying that the proposed commit time satisfies a second set of timestamp-based conditions), and a write initialization phase (in which respective new versions of individual data items of the write set are stored, without storing data item values indicated in the write set).
US12066991B2
Systems and methods are provided for data migration. The system may comprise one or more processors and a memory storing instructions that, when executed by the one or more processors, cause the system to migrate at least one first table of a first database schema to at least one second table of a second database schema, determine a query for modifying the first table during the migration, modify the second table based at least in part on the query, and update a mutation table to describe the modification, wherein the mutation table at least describes the modification.
US12066988B2
A system includes a processor and a memory storing instructions. The instructions include, in response to receiving a first input indicating a first data model from a user device, obtaining the first data model and identifying objects within the first data model. The instructions include obtaining a set of rules and, for each rule of the set of rules, applying the rule to each object to determine an adherence of the object to the rule or a violation of the object of the rule. The instructions include generating a report that indicates, for each rule and for each object, the adherence of the object to the rule or the violation of the object of the rule and calculating an adherence score based on an overall adherence of the objects to the set of rules. The instructions include transmitting, for display on the user device, the generated report and adherence score.
US12066984B2
Compact size, extensibility, and built-in security is provided by enclosing into a file's header custom specifications and preventing file execution without knowing these specifications. The format allows for defined sections, organizing preliminary pre-processing of data before operating system (OS) execution. A file header, including standard and user-defined sections, is created and read by delegated processing; forming an executable file's header with inclusive specifications using the abstract data syntax description language (ASN.1); encoding header with compression encoding rules (PER); and creating a separate header section of interfaces table for components. Program assembly output includes an executable file in machine and/or byte code with a dynamic extensible header encoded according to ASN.1 with PER. During execution, the OS reads the file header and determines available sections, including links to external components and their interfaces, sections with machine/byte code, including user-defined sections, and links to delegate-processes for user sections data preparation.
US12066980B2
Aspects for remote analysis of file system metadata are described. In an example, a computer-readable file from a client system is received. The computer-readable file comprises file system metadata of a file system, and corresponding source location of the file system metadata on a volume of the client system. Thereafter, a target location on a target volume is identified, wherein the target location corresponds to the source location on the volume of the client system. In an example, the file system metadata is replicated onto the target location based on the computer-readable file, for analysis.
US12066975B2
Embodiments are generally directed to cache structure and utilization. An embodiment of an apparatus includes one or more processors including a graphics processor; a memory for storage of data for processing by the one or more processors; and a cache to cache data from the memory; wherein the apparatus is to provide for dynamic overfetching of cache lines for the cache, including receiving a read request and accessing the cache for the requested data, and upon a miss in the cache, overfetching data from memory or a higher level cache in addition to fetching the requested data, wherein the overfetching of data is based at least in part on a current overfetch boundary, and provides for data is to be prefetched extending to the current overfetch boundary.
US12066969B2
Embodiments herein describe using an adaptive chip-to-chip (C2C) interface to interconnect two chips, wherein the adaptive C2C interface includes circuitry for performing multiple different C2C protocols to communicate with the other chip. One or both of the chips in the C2C connection can include the adaptive C2C interface. During boot time, the adaptive C2C interface is configured to perform one of the different C2C protocols. During runtime, the chip then uses the selected C2C protocol to communicate with the other chip in the C2C connection.
US12066967B2
Systems and methods of communicating in a network use a physical device. The physical device includes hardware including a management data input/output interface and firmware configured to cause the hardware to provide a logical message interface using the management data input/output interface. The logical message interface is used to receive messages for configuring and/or managing the physical device.
US12066966B2
A device configured to receive a set of bits for a first package from a previous device of a plurality of devices connected in a daisy chain configuration, the set of bits for the first package including a first priority value and if the device does not have a second package for output to a destination device of the plurality of devices, output the set of bits for the first package to a subsequent device of the plurality of devices. When the device has the second package for output to the destination device of the plurality of devices, the device is configured to determine whether the second priority value is higher than the first priority value and if the second priority value is higher than the first priority value output a set of bits for the second package to the subsequent device of the plurality of devices.
US12066965B2
Data are serially communicated over an interconnect between an encoder and a decoder. The encoder includes a first training unit to count a frequency of symbol values in symbol blocks of a set of N number of symbol blocks in an epoch. A circular shift unit of the encoder stores a set of most-recently-used (MRU) amplitude values. An XOR unit is coupled to the first training unit and the first circular shift unit as inputs and to the interconnect as output. A transmitter is coupled to the encoder XOR unit and the interconnect and thereby contemporaneously sends symbols and trains on the symbols. In a system, a device includes a receiver and decoder that receive, from the encoder, symbols over the interconnect. The decoder includes its own training unit for decoding the transmitted symbols.
US12066962B2
A device includes a master device, a set of slave devices and a bus. The master device is configured to transmit first messages carrying a set of operation data message portions indicative of operations for implementation by slave devices of the set of slave devices, and second messages addressed to slave devices in the set of slave devices. The second messages convey identifiers identifying respective ones of the slave devices to which the second messages are addressed requesting respective reactions towards the master device within respective expected reaction intervals. The slave devices are configured to receive the first messages transmitted from the master device, read respective operation data message portions in the set of operation data message portions, implement respective operations as a function of the respective operation data message portions read, and receive the second messages transmitted from the master device.
US12066961B2
A method for improving reliability of a storage system and a related apparatus, where the storage system includes a first control device and a second control device. The method includes receiving, by a target controller, a write request, where the write request includes to-be-written data, and the target controller belongs to the first control device; writing, by the target controller, the to-be-written data into a memory of the target controller; and writing, by the target controller, the to-be-written data into a memory of a mirror controller of the target controller, where at least one mirror controller belongs to the second control device.
US12066955B2
Systems and method for transferring data are disclosed herein. In an embodiment, a method of transferring data includes reading a plurality of bytes from a first memory, discarding first bytes of the plurality of bytes, realigning second bytes of the plurality of bytes, and storing the realigned second bytes in a second memory.
US12066951B2
A computer system includes physical memory devices of different types that store randomly-accessible data in memory of the computer system. In one approach, access to memory in an address space is maintained by an operating system of the computer system. A virtual page is associated with a first memory type. A page table entry is generated to map a virtual address of the virtual page to a physical address in a first memory device of the first memory type. The page table entry is used by a memory management unit to store the virtual page at the physical address.
US12066949B2
Translated addresses of a memory device can be stored in a first LUT maintained by control circuitry. Untranslated addresses can be stored in a second LUT maintained by the control circuitry. In response to a translation request for a particular translated address of the memory device corresponding to a target untranslated address, an index of the second LUT associated with the target untranslated address can be determined, the index of the second LUT can be mapped to an index of the first LUT, and the particular translated address corresponding to the target untranslated address can be retrieved from the first LUT.
US12066944B2
A coherency management device receives requests to read data from or write data to an address in a main memory. On a write, if the data includes zero data, an entry corresponding to the memory address is created in a cache directory if it does not already exist, is set to an invalid state, and indicates that the data includes zero data. The zero data is not written to main memory or a cache. On a read, the cache directory is checked for an entry corresponding to the memory address. If the entry exists in the cache directory, is invalid, and includes an indication that data corresponding to the memory address includes zero data, the coherency management device returns zero data in response to the request without fetching the data from main memory or a cache.
US12066936B1
An example cache memory includes a schedule module, control modules, a datapath, and an output module. The cache memory receives requests to read and/or write cache lines. The schedule module maintains a queue of the requests. The schedule module may assign the requests to the control modules based on the queue. A control module, which receives a request, controls the datapath to execute the request, i.e., to read or write the cache line. The control module can control the execution by the datapath from start to end. Multiple control modules may control parallel executions by the datapath. The output module outputs, e.g., to a processor, responses of the cache memory to the requests after the executions. A response may include a cache line. The cache memory may include a buffer that temporarily stores cache lines before the output to avoid deadlock in the datapath during the parallel executions of requests.
US12066934B2
A memory system includes a memory device suitable for storing data and a controller suitable for determining an operation state of the memory device and carrying out garbage collection to the memory device in response to the operation state. The controller can ignore a first command entered from a host while performing the garbage collection.
US12066930B2
A journal count reflecting a number of logical-to-physical (L2P) journals written to a non-volatile memory device is maintained, wherein each L2P journal is associated with one or more updates to an L2P address mapping table. In response to determining that the journal count satisfies a threshold criterion, a first section of a plurality of sections of the L2P address mapping table is identified, wherein the plurality of sections of the L2P address mapping table is cached in a volatile memory device. The first section of the L2P address mapping table is written to the non-volatile memory device.
US12066926B2
According to one implementation of the present disclosure, an integrated circuit includes comparator circuitry coupled to peripheral circuitry of a multiport memory and configured to transmit one or more data input signals or one or more write enable signals to respective memory outputs when a memory address collision is detected for one or more respective bitcells of the multi-port memory. In another implementation, a method comprises: detecting a read operation and a write operation to a same memory bitcell of a multiport memory in one clock cycle and in response to the detection, performing the read operation of a data input signal or a write enable signal of the multiport memory.
US12066919B2
Techniques for validating data in shared environments are disclosed. In some embodiments, a system monitors data during data entry windows and sends notifications when potential a data corruption event is detected. Users may identify what data to monitor by registering queries with the system. During the registration process, the system may execute the query to determine an expected query result. The system may then execute the query one or more additional times during the data entry window to determine whether a subsequent query result diverges from the expected result. If so, then the system may trigger a notification that identifies the potential data corruption event. Users may define notification lists for registered queries to identify recipients of the event notifications, which may span members of multiple teams in a development environment.
US12066916B2
Systems, apparatuses, and methods related to using memory device sensors are described. Some memory system or device types include sensors embedded in their circuitry. For instance, another device can be coupled to a memory device with an embedded sensor. The memory device can transmit a signal representing sensor data generated by the embedded sensor using a sensor output coupled to the other device. A controller coupled to a memory device may determine one or more threshold values of a sensor or sensors embedded in a memory device. The memory device may transmit an indication responsive to one or more sensors detecting a value greater or less than a threshold and may transmit the indication to another device.
US12066905B2
Disclosed is an operating method of a storage device which includes a plurality of nonvolatile memory chips. The method includes providing, at the storage device, information of a capacity of each of the plurality of nonvolatile memory chips to an external host device, receiving, at the storage device, information of a plurality of groups from the external host device, performing a reset after receiving the information of the plurality of groups, mapping, at the storage device, the plurality of nonvolatile memory chips with the plurality of groups, and configuring the plurality of nonvolatile memory chips so as to correspond to the plurality of groups, after performing the reset.
US12066899B2
Examples are disclosed that relate to backing up data objects. One example provides, at a computing device, a method, comprising detecting one or more conditions triggering backup of a data object, and in response to detecting the one or more conditions, accessing the data object to retrieve, from metadata associated with the data object, instructions for backing up the data object. The method further comprises executing one or more backup sequences specified by the instructions in which at least a portion of the data object is backed up to one or more storage devices.
US12066898B2
A distributed agent for backup and restoration of virtual machines collects backup data and meta-data. The distributed agent includes an agent inside a virtual machine and an agent outside the virtual machine. The two kinds of agents communicate with each other to collect data of different types used to backup and restore virtual machines.
US12066884B2
Systems and methods involving provision of machine-learning-based prediction of future failure, anomaly, etc. in execution of batch processes are disclosed. In one illustrative implementation, an exemplary method may comprise obtaining historical data from prior execution of one or more batch processes, training a machine learning model to predict one or more future failure(s) and/or future flag(s) in execution of a future batch process, generating and/or collecting descriptive analytics pertinent to execution of the batch processes, and predicting a future failure and/or future flag in execution of the batch processes using the trained machine learning model and/or the descriptive analytics.
US12066874B2
An electronic apparatus includes an apparatus main body having a first external surface that faces a first direction and a first side surface that faces a second direction orthogonal to the first direction, and a first exterior panel curved at least partly, in which the first exterior panel covers the first external surface and is attached to the first external surface, and the first exterior panel has, at an end portion of the first exterior panel, a first projecting portion beyond a position of the first side surface.
US12066873B2
The present disclosure provides a display panel including a display layer and an antenna layer. The display layer includes pixel units arranged according to a first rule. The antenna layer is arranged on a light-exiting side of the display layer and includes multiple metal grid units that are uniformly arranged in the antenna layer according to a second rule. The antenna layer includes a first area and a second area. The metal grid units in the first area are in conduction with each other and are not in conduction to the metal grid units in other areas to form an antenna unit. The second area is a non-antenna area. The ratio of the total area of the first area and the second area to the area of the display layer is greater than 90%.
US12066871B2
A portable electronic device including a first body, a second body, and a hinge mechanism is provided. The second body is connected to the first body through the hinge mechanism, and the hinge mechanism has a rotating shaft fixed to the second body. When the second body rotates relative to the first body, the rotating shaft slides along an arc-shaped path to increase or decrease a distance between a lower edge of the second body and a back side of the first body.
US12066870B2
A plate arrangement for change of direction in a chain hinge assembly, the plate arrangement comprising a first hinge plate comprising one center pivot axis, and a second hinge plate comprising a center pivot axis and two end pivot axes, the end pivot axes being arranged at opposite sides of the center pivot axis. The first hinge plate and the second hinge plate are pivotally interconnected such that the center pivot axis of the first hinge plate coincides with the center pivot axis of the second hinge plate. The end pivot axes of the second hinge plate are adapted for pivotally connecting to first and second further elements such that the further elements may pivot in a direction which is opposite of a pivoting direction of the first hinge plate, in relation to the second hinge plate.
US12066868B2
Systems and methods for providing merchant/customer interaction include determining that a tablet computer is in a merchant orientation, retrieving merchant product information according to a received instruction and merchant orientation information, and displaying a merchant screen on the tablet computer that includes the merchant product information according to the merchant orientation information. A change in the orientation of the tablet computer enclosure/stand is then detected from the merchant orientation to a customer orientation. In response, the merchant screen is transitioned on the tablet computer display to a customer screen as the tablet computer enclosure/stand changes orientations by moving the merchant screen and the customer screen linearly while in a stacked orientation. The customer screen includes the merchant product information displayed according to customer orientation information such that the merchant product information is displayed differently on the customer screen relative to the merchant screen.
US12066867B2
An electronic device may be provided with a display having a flexible substrate with fastened bent edges. The flexible substrate may have an active region that includes an array of light-emitting elements such as organic light-emitting diodes. The flexible substrate may also have inactive regions that lie outside of the active region. The bent edges may include portions of the inactive regions and portions of the active region. The bent edges may be wrapped to conform to the shape of an internal support structure. The bent edges may be fastened to the support structure with fastening members that attach a housing member or an internal clamp to the support structure. The bent edges may be secured between the housing member or the internal clamp and the support structure. The fastening members may be engaged in openings in the support structure and may pass through or alongside the bent edges.
US12066862B2
Embodiments of a dock with an actively controlled heatsink for a multi-form factor Information Handling System (HS) are described. In some embodiments, a dock may include: a base, a plateau configured to receive an IHS, and an arm coupling a distal edge of the base to a proximal edge of the plateau, where the plateau comprises a heatsink configured to cool a heatpipe disposed within the IHS via a bottom surface of the IHS.
US12066858B2
A foldable display device includes: a display panel including a foldable display area; a first base plate overlapping a portion of the foldable display area to guide folding of the display panel; a second base plate overlapping another portion of the foldable display area to guide the folding of the display panel together with the first base plate; a first rotor coupled to the first base plate to rotate around a first virtual rotation axis, a second rotor coupled to the second base plate to rotate around a second virtual rotation axis; a follower in contact with the first and second rotors to reciprocate in a first direction by rotation of at least one of the first and second rotors; and a bracket coupled to the first and second rotors to guide a rotation path of each of the first and second rotors.
US12066852B2
A neutral return mechanism includes an interlocking shaft to be pushed and pulled in an axial direction in conjunction with a swinging operation of an operation member; a housing member to support the interlocking shaft such that the interlocking shaft is movable in the axial direction and accommodate the interlocking shaft such that one of opposite end portions thereof protrudes; a neutral return spring to return the interlocking shaft from a post-movement position to an initial position, the neutral return spring being accommodated in the housing member such that the neutral return spring extends in the axial direction of the interlocking shaft, wherein the housing member includes a supported portion between a spring accommodation portion in which the neutral return spring is accommodated and a protrusion opening through which the interlocking shaft protrudes, the supported portion being supported at a bracket member.
US12066842B2
In a vehicle remote instruction system, a remote commander issues a remote instruction relating to travel of an autonomous driving vehicle based on sensor information from an external sensor that detects an external environment of the autonomous driving vehicle. The vehicle remote instruction system sets a range of information to be transmitted to the remote commander among the sensor information detected by the external sensor, as a limited information range, based on the external situation or an external situation obtained based on map information and a trajectory of the autonomous driving vehicle.
US12066841B2
According to the embodiments described herein, system and methods for determining relative pose of materials handling vehicles in an industrial environment may include utilizing ultra-wideband (UWB) antenna array systems respectively mounted on the materials handling vehicles to send mutually received information to determine the relative pose between the vehicles, determining one or more fields of each materials handling vehicle, and determining one or more overlapping fields between the materials handling vehicles based on the determined one or more fields and the relative pose. A vehicle control may be implemented based on the determined relative pose and the overlapping fields as a field enforcement, such as a control action to avoid collision between the vehicles.
US12066839B2
Provide is an agricultural chemical spraying drone with improved safety. An acceleration sensor and a contact detection sensor are combined to detect contact of a drone with an obstacle. In a case where the contact is detected, a retreat action such as hovering is taken. In addition, a message may be displayed on a control terminal, a warning sound may be generated, and a warning light may be turned on. Further, a structure capable of minimizing finger insertion accidents and minimizing interference with a rotor even in collision is adopted as a propeller guard.
US12066836B2
The technology relates to determining general weather conditions affecting the roadway around a vehicle, and how such conditions may impact driving and route planning for the vehicle when operating in an autonomous mode. For instance, the on-board sensor system may detect whether the road is generally icy as opposed to a small ice patch on a specific portion of the road surface. The system may also evaluate specific driving actions taken by the vehicle and/or other nearby vehicles. Based on such information, the vehicle's control system is able to use the resultant information to select an appropriate braking level or braking strategy. As a result, the system can detect and respond to different levels of adverse weather conditions. The on-board computer system may share road condition information with nearby vehicles and with remote assistance, so that it may be employed with broader fleet planning operations.
US12066832B2
A processor-implemented method of performing an operation using a complex-valued attention network includes: extracting a complex-valued attention weight from complex-valued input data; and determining complex-valued attention data by applying the extracted complex-valued attention weight to the complex-valued input data.
US12066827B2
A watercraft auto-docking system basically includes a user interface and a digital controller. The user interface includes a display monitor. The digital controller includes a processor, a computer memory and an I/O interface. The user interface is connected to the I/O interface. The digital controller is configured to select a target dock based on a user selection from at least one candidate dock displayed on the display monitor using the user interface for docking a watercraft in an auto-docking mode. The digital controller is configured to generate a docking path from a current location of the watercraft to a target location of the target dock. The digital controller is configured to autonomously navigate the watercraft using an autopilot system along the docking path until the watercraft reaches the target location of the target dock.
US12066823B2
The purpose of the present invention is to provide: a remote control terminal which can perform a remote control on a working vehicle easily and simply; and a working vehicle provided with a remote control terminal. The present invention is provided with: a vehicle-side azimuth sensor (29) which detects the azimuth around a crane device (6); a remote control terminal (32) having a hung cargo movement control tool which is a first control part that remotely controls the crane device (6), and a reference change control tool (34) which is a second control tool that sets a reference for the azimuth in which the crane device (6) operates according to a control of the hung cargo movement control tool (35); and a control device (31) which is configured to be able to communicate with the remote control terminal (32) and controls the operation of the crane device (6), wherein the control device (31) causes the crane device (6) to operate in the azimuth in which the crane device (6) operates, when acquiring, from the remote control terminal (32), a signal of the azimuth in which the crane device (6) operates according to a control of the hung cargo movement control tool (35) and which is calculated on the basis of a set value of the reference change control tool (34).
US12066821B2
Systems and methods for monitoring components of a manufacturing application system (e.g., MES or MOM) with respect to application-specific metrics is provided. The MES may include software or a computer system used to monitor, control, and log processes employed to transform raw materials to products in an industrial automation system. The industrial automation system may include a monitoring system that receive a first set of data associated with application-specific metrics corresponding to the manufacturing application system as well as a second set of data from components associated with the manufacturing application system. The monitoring system may store a third set of data, in which the second set of data is organized with respect to the first set of data in a database. The monitoring system may analyze the organized data with respect to boundary conditions and provide alerts to a user or adjust operations associated with the components or the manufacturing application systems based on the components operating outside of the boundary conditions.
US12066820B2
Disclosed is an integrity index detecting method for a device by means of a control output signal including an integrity information collecting step S10 of measuring and collecting a time interval between a control output signal and a subsequent control output signal; a defect information collecting step S20 of measuring and collecting a time interval between a control output signal and a subsequent control output signal; a setting step S30 of setting an integrity reference value and a defect reference value for the time interval between the control output signals; a detecting step S40 of measuring and collecting the time interval value between a control output signal and a subsequent control output signal; and an outputting step S50 of outputting the integrity index value detected in the detecting step S40 to provide the integrity index value to the manager.
US12066817B2
Provided is an application of the described (or similar) decision-theoretic approaches to ensure the quality, output and timeliness of manufactured products for flexible and adaptable production systems, by determining and integrating suitable quality assurance measures which are integrated into the production process in an optimal manner. Thereby, a pareto-optimal sequence of production steps and quality assurance mechanisms are determined that provides an optimal trade-off between target product quality, production time and production costs. Since the approach is performed in an automated way, it can even be performed for flexible production scenarios down to a production of lot size I.
US12066816B2
Method for predicting the presence of product defects during an intermediate processing step of a thin product wound in a roll, which provides for—receiving a roll of thin product that has been assigned a unique identification code stored in a database system, this latter containing process and/or product parameters detected in the production steps of said thin product wound in said roll upstream of said intermediate processing step, associated with said unique identification code, —accessing said database system, —entering one or more of the process and/or product parameters associated with the unique identification code of said roll contained in said database system in a predictive model, which uses a correlation, created by means of machine learning logics, from historicized values related to the process and/or product parameters output from said intermediate processing step and historicized values related to process and/or product parameters of the same rolls detected in the production steps of said rolls upstream of said intermediate processing step, in order to predict product parameters output from said intermediate processing step, —comparing said aforesaid product parameters with respective predefined limit values, —generating predictive diagnosis information of thin product defects based on the result of said comparison.
US12066792B2
Winding device (1000) including motorisation means (2) driving a watch holder (1) carrying at least one automatic watch (100) with a movable oscillating mass, and measuring means (3) measuring the amplitude of the resonator of each watch (100), and watch (100) identification means (300), providing the identification of a particular watch (100) to control means (200) including an internal database (400) with the history of the amplitude measurements of the resonator of this particular watch (100) and/or the value of its nominal amplitude, and/or communication means (500) communicating with an external database (600) for extracting these values.
US12066791B2
A dial plate (1) for a timepiece is designed to be mounted on a connection ring (2), and has a first, lower surface (12) designed to be oriented towards the interior of a timepiece, an opposite second, upper surface (13) designed to be on view, and a third surface (11) connecting the first and second surfaces, forming a peripheral contour of the dial plate. The third, peripheral contour surface (11) includes a section which passes via a plane perpendicular to the second surface (13), this section having a first part (11a) extending from the first, lower surface (12) to the second, upper surface (13) of the dial plate (1), in a direction which is non-perpendicular to the first, lower surface (12).
US12066781B2
A sheet transport device includes a pair of movable transport rollers capable of transporting a sheet while holding the sheet and moving in an axial direction crossing a transportation direction; pairs of first transport rollers upstream from the pair of movable transport rollers in the transportation direction while being spaced apart from each other to transport the sheet while holding the sheet; and pairs of transport guides to define sheet transport spaces between the pair of movable transport rollers and the pairs of first transport rollers and between the pairs of first transport rollers. When the pair of movable transport rollers is to be moved in the axial direction, at least one pair of first transport rollers transports the sheet while bending the sheet in the transport space by producing a difference in transport rate within a portion of a section upstream from the pair of movable transport rollers.
US12066770B2
A developer container includes: a container body that stores developer; an agitating member that is rotatably disposed in the container body and rotates to agitate the developer; a first swing member that includes a first fixed end, a first free end, a first surface, and a second surface opposite the first surface, and that is swung by the agitating member coming into contact with the first surface when the agitating member rotates; and a projecting support that is disposed to face the second surface and project from a wall surface formed in the container body, and that abuts the second surface.
US12066764B2
Disclosed is a method for obtaining a computationally determined interference electric field describing scattering of radiation by a pair of structures comprising a first structure and a second structure on a substrate. The method comprises determining a first electric field relating to first radiation scattered by the first structure; determining a second electric field relating to second radiation scattered by the second structure; and computationally determining the interference of the first electric field and second electric field, to obtain a computationally determined interference electric field.
US12066763B2
A characterization system for inspecting or performing metrology on a layer within a semiconductor stack is disclosed. The system includes an imaging sub-system configured to acquire image data from a semiconductor stack including one or more layers. The semiconductor stack includes a metal layer having a thickness between 0.5 and 10 nm deposited on a layer of the semiconductor stack to form a reflective surface on the layer. The system includes a controller. The controller is configured to receive image data of the reflective surface on the layer of the substrate stack and identify one or more defects or one or more structures within the layer based on illumination reflected from the reflective surface.
US12066758B2
A pellicle suitable for use with a patterning device for a lithographic apparatus. The pellicle comprising at least one breakage region which is configured to preferentially break, during normal use in a lithographic apparatus, prior to breakage of remaining regions of the pellicle. At least one breakage region comprises a region of the pellicle which has a reduced thickness when compared to surrounding regions of the pellicle.
US12066757B2
A mask includes a reflective layer, an absorption layer and an absorption part. The absorption layer is disposed over the reflective multilayer. The absorption part is disposed in the reflective layer and the absorption layer, wherein an entire top surface of the absorption part is substantially flush with a top surface of the absorption layer.
US12066752B2
A light-source device includes an excitation light source to emit first color light; an optical member having a reflecting surface to reflect the first color light; a wavelength conversion unit including a wavelength conversion member on which the first color light reflected by the optical member is incident, the wavelength conversion member to convert at least part of the first color light into second color light having a wavelength different from a wavelength of the first color light and emit the second color light; and a light condensing element to condense the first color light emitted from the wavelength conversion unit. A straight line including a first optical path from a center of a flux of light rays emitted from the excitation light source, to the center of the first color light on the reflecting surface does not intersect with a light flux condensed by the light condensing element.
US12066751B2
A shoe apparatus includes an engagement portion with an accessory shoe apparatus included in an electronic apparatus, a plurality of connection terminals, where a first direction is an attachment direction to the accessory shoe apparatus, which are arranged in a second direction orthogonal to the first direction, and located on a front side of the engagement portion in the attachment direction, and a connector that includes protrusion portions that protrude in a third direction orthogonal to the first and second directions on both outer sides of the plurality of connection terminals in the second direction. The protrusion portion includes a slope portion on a side that does not face the plurality of connection terminals such that a width in the second direction at a position of a tip in the third direction is narrower than a width at a position away from the tip.
US12066750B2
A camera module and an electronic device are disclosed. The camera module is configured to be connected with a display device, and the display device is provided with a main board. The camera module includes: a mounting base configured to be fixedly connected with the display device; and a functional portion configured to be detachably connected with the mounting base. The functional portion includes a casing, a camera and a first adapter plate which are mounted in the casing. The first adapter plate and the camera are connected. The first adapter plate is configured to be connected to the main board in the display device when the functional portion is mounted on the mounting base.
US12066741B2
A photonic AC-DC voltage and current equivalence converter includes: a photonic chip; a weak thermal link; an isothermal region; a resistive electrode; an isothermal region photonic nanoresonator; an isothermal region waveguide; a chip photonic nanoresonator; and a chip waveguide, such that an ac voltage is determined from matching a temperature rise of the isothermal region due to a primary elevated temperature of the isothermal region when ac voltage is received by the resistive electrode.
US12066735B2
In a terminator, a midpoint electrode is provided between a first signal electrode and a second signal electrode, a first resistor is connected between the first signal electrode and the midpoint electrode, a second resistor is connected between the second signal electrode and the midpoint electrode, a first GND electrode is provided on a side opposite to the side where the first resistor is provided with the first signal electrode interposed therebetween, a second GND electrode is provided on the side opposite to the side where the second resistor is provided with the second signal electrode interposed therebetween, and capacitances in the terminator are formed between the first signal electrode and the midpoint electrode, between the second signal electrode and the midpoint electrode, between the first signal electrode and the first GND electrode, and between the second signal electrode and the second GND electrode.
US12066734B1
Electrochromic devices having buffer layer(s) that promote electron transfer between the second transparent electrode and second electrochromic layer while concurrently reducing or inhibiting deleterious chemical interaction between the second electrochromic layer and the second electrode and/or maintaining the conductive state of the second electrode and while the device changes the from a low transparency state of approximately 10-20% transmittance in the visible region to a high transparency state of approximately 75% to 95% transmittance in the visible region with at least a 70% difference in transmittance between the low and high transmittance states. In certain aspects, the electrochromic devices change from a low transparency state having a gray color to a high transparency state that is substantially colorless within 20 seconds of applying the selective electrical potential to the electrochromic device.
US12066731B2
A liquid crystal display device includes a transistor, a pixel electrode, and a common electrode. The transistor includes a first gate electrode on a first substrate, a second gate electrode having a region overlapping the first gate electrode, an oxide semiconductor layer between the first gate electrode and the second gate electrode, a first insulating layer between the first gate electrode and the oxide semiconductor layer, a second insulating layer between the oxide semiconductor layer and the second gate electrode, and a first oxide conductive layer and a second oxide conductive layer disposed between the first insulating layer and the oxide semiconductor layer and disposed with the first gate electrode and the second gate electrode sandwiched from both sides. The pixel electrode is disposed between the first and the second insulating layer; the common electrode is disposed a region overlapping with the pixel electrode and on the second insulating layer.
US12066729B2
A display panel and a display device are provided. The display panel includes a display region and a gate driving wiring region disposed on at least one side of the display region. Color resists are disposed corresponding to regions of the display region and the gate driving wiring region. The gate driving wiring region includes a first metal layer and second metal layers disposed on the first metal layer, and the color resists located in the gate driving wiring region at least cover the second metal layers.
US12066727B2
The present application discloses a display panel and a display device. A first metal layer includes at least one first signal transmitting portion. An insulating layer includes a protrusion portion covering the first signal transmitting portion. A second metal layer includes at least one second signal transmitting portion. The second signal transmitting portion includes a first sub-portion, a second sub-portion, and a third sub-portion. The second sub-portion and the third sub-portion are respectively connected to two ends of the first sub-portion. A conductive layer includes a bridging portion. An orthographic projection of the second sub-portion on a substrate and an orthographic projection of the third sub-portion on the substrate both fall outside a coverage of an orthographic projection of the protrusion portion on the substrate. Two ends of the bridging portion are electrically connected to the second sub-portion and the third sub-portion respectively.
US12066726B2
An array substrate and a manufacturing method thereof and a display device are provided. The array substrate includes a base substrate, a polarizer, a plurality of active elements, a first organic protective layer and a first inorganic protective layer. The polarizer is located on a first side of the base substrate; the plurality of active elements are arranged in an array form and provided on a second side of the base substrate opposite to the first side; the first organic protective layer is located on a side of the polarizer facing away from the base substrate and covers the polarizer; and the first inorganic protective layer is located on a side of the first organic protective layer facing away from the polarizer and covers the first organic protective layer.
US12066723B2
The present application provides a display panel and a display device. The display panel includes: thin film transistors arranged on the first substrate; a common electrode layer arranged on the thin film transistors; auxiliary conductive patterns disposed on the common electrode layer and connected to the common electrode layer; a pixel electrode layer electrically insulated from the common electrode layer and the auxiliary conductive patterns; and spacers arranged between the first substrate and the second substrate and staggered with respect to the auxiliary conductive patterns.
US12066719B2
Display device is provided and includes scanning line; semiconductor layer; pixel electrode; first insulating film having first contact hole; organic insulating film having second contact hole; and second insulating film having third contact hole, wherein semiconductor layer has first linear portion that is orthogonal to scanning line, pixel electrode is electrically connected to first linear portion via first, second and third contact holes, first linear portion overlaps first, second and third contact holes that are aligned along first linear portion, and center of second contact hole is located between center of first contact hole and center of third contact hole.
US12066712B2
The present disclosure discloses a display panel and a display device. The display panel includes a backlight module and a panel body. The panel body includes a light-transmitting region. The backlight module includes: a backlight unit, provided with a light-transmitting portion corresponding to the light-transmitting region; and a light source assembly. The panel body includes: a substrate, located on the backlight unit; a metal wire, located on a side of the substrate opposite the backlight unit; and a shading layer, located between the substrate and the metal wire, the shading layer covering the metal wire.
US12066709B2
A display area formed in an overlapping area of a TFT substrate and a counter substrate, a terminal area formed on the TFT substrate in which the counter substrate does not overlap, and a side of the counter substrate adjacent to the terminal area extending in a first direction, in which a basic potential terminal to be connected to a basic potential, and terminal wirings are formed in the terminal area, an IC driver is installed on the terminal area, an upper polarizing plate having a transparent conductive adhesive is adhered to the counter substrate, the upper polarizing plate extends in a direction perpendicular to the first direction, and covers a part of the terminal area, the basic potential terminal is electrically connected with the transparent conductive adhesive of the upper polarizing plate via a conductive element, and the upper polarizing plate covers the driver IC.
US12066706B2
A liquid crystal/polymer composite electrically controlled dimming film is provided, including a liquid crystal material, a polymer matrix, and two layers of conductive substrates. The polymer matrix is sandwiched between the two layers of conductive substrates, and the polymer matrix has a porous microstructure. The liquid crystal material is dispersed in the polymer matrix to form liquid crystal microdroplets, and the liquid crystal microdroplets have vertically oriented polymer networks. The liquid crystal/polymer composite electrically controlled dimming film has a unique composite microstructure. In this composite microstructure, the polymer matrix of the porous microstructure gives the film with good mechanical processing performance. In addition, the vertically oriented polymer networks in the liquid crystal microdroplets further reduces the orientation difficulty of liquid crystal molecules, which is conducive to reducing the driving voltage of the liquid crystal/polymer composite electrically controlled dimming film, and is suitable for large area processing and production.
US12066705B2
A display unit, a splicing screen, and a display device are provided. The display unit includes an edge area, and the edge area includes a mounting area and a side binding area. The display unit further includes: a first driving circuit layer located in the edge area and disposed on a side of the base substrate, a plurality of micro light-emitting elements disposed on the first driving circuit layer, and a binding part disposed in the side binding area and connected to the first driving circuit layer.
US12066697B2
The invention refers to a quantum dot light diffuser plate that can be assembled on a backlight module with blue LEDs as the bottom light source. Microstructures having concave portions and convex portions are formed on the surface of the diffuser plate. A quantum dot layer comprising green quantum dots and red quantum dots is applied only on the concave portions of the microstructures, and thus is separated by the convex portions into small parts independent of each other. A water-blocking and gas-blocking layer is arranged on the upper surface of the quantum dot layer. The water vapor and oxygen from the outside cannot penetrate the side end faces of the quantum dot layer and invade the entire quantum dot layer, such that, the diffuser plate of the invention can have the advantages of simple process, low cost and high production yield.
US12066693B2
An eyeglass frame is disclosed comprising a bridge and two rims connected by the bridge. Each rim is configured to contain a lens. The eyeglass frame also comprises two split end pieces. Each split end piece comprises a first portion and a second portion. Each split end piece is coupled to and extends outward from a corresponding rim of the two rims on a side of the corresponding rim opposite the bridge. The eyeglass frame further comprises two temples. Each temple comprises a lock on an end of the temple. The lock is configured to at least partially contain both the first portion and the second portion of the split end piece and secure the temple to the corresponding rim and secure the lens within the corresponding rim.
US12066691B2
A lens driving module is configured to provide an imaging lens system with auto-focus functionality. The imaging lens system is disposed between a preloading element and a driving base of the lens driving module. The preloading element includes an injection molded part and a ferromagnetic part partially embedded in the injection molded part. A rollable element is disposed in each of mounting structures of the injection molded part and in contact with a displaceable lens carrier of the imaging lens system. The ferromagnetic part and a magnet disposed on the displaceable lens carrier together generate a magnetic attraction force, such that the displaceable lens carrier exerts a preloading force on the rollable element. The driving base includes a driving coil and an electrical wiring pattern. The driving coil corresponds to the magnet for generating a driving force to drive the displaceable lens carrier to move along the optical axis.
US12066688B2
An optical element drive mechanism is provided. The optical element drive mechanism includes an immovable part, a movable part, and a drive assembly. The movable part is connected to an optical element that includes an optical axis. The movable part is movable relative to the immovable part. The drive assembly drives the movable part to move relative to the immovable part.
US12066685B2
A motor for driving lenses is provided. The motor includes a case, a yoke fixed in the case, a magnet fixed in the yoke, a carrier equipped with lenses and installed in the magnet such that the carrier moves up and down within the magnet, a coil coupled with the carrier, in which the coil cooperates with the magnet to move up and down the carrier, a spring unit including first and second springs having arc shapes and being separated from each other while forming a ring shape as a whole, a spacer supporting the outer peripheral surface of the spring unit, and a terminal provided on the spacer.
US12066684B2
An interchangeable lens that is removably attachable to a camera body includes: a first clock receiver that receives a first clock signal from the camera body; a second clock transmitter that transmits a second clock signal to the camera body; a lens that is driven by a driving force from a first drive member; a receiver that receives an instruction signal from the camera body in synchronization with the first clock signal; and a first transmitter that repeatedly transmits positional information on the lens to the camera body in synchronization with the second clock signal.
US12066683B2
Digital cameras, optical lens modules for such digital cameras and methods for assembling lens elements in such lens modules. In various embodiments, the digital cameras comprise an optical lens module including N≥3 lens elements Li, each lens element comprising a respective front surface S2i-1 and a respective rear surface S2i. In various embodiments the first lens element toward the object side, L1 and its respective front surfaces S1 have optical and/or mechanical properties, such as a clear aperture, a clear height and a mechanical height that are larger than respective properties of following lens elements and surfaces. This is done to achieve a camera with large aperture stop, given a lens and/or camera height.
US12066673B2
In various embodiments, optical fibers have arrangements of core, annular core, and cladding regions enabling variation of beam shape and/or beam parameter product and may be utilized for the processing (e.g., welding, cutting, drilling, etc.) of various workpieces.
US12066670B2
An optical module includes a shell, a circuit board, at least one of a light-transmitting chip or a light-receiving chip, a lens assembly, an optical fiber ferrule assembly and a fixing plate. The circuit board is disposed in the shell. The light-transmitting chip and/or the light-receiving chip is disposed on the circuit board. The lens assembly is disposed on the circuit board, covers the light-transmitting chip and/or the light-receiving chip, and is configured to change a propagation direction of an optical signal incident into the lens assembly. The optical fiber ferrule assembly is connected to the lens assembly, and is configured to transmit an optical signal incident into the optical fiber ferrule assembly. The fixing plate is configured to fix the optical fiber ferrule assembly to the lens assembly.
US12066665B2
There is provided an optical waveguide constituted by a core made of a semiconductor and formed on a substrate. A grating coupler is provided at one end of the optical waveguide. Further, a reflecting portion formed on the optical waveguide by being optically coupled to the optical waveguide is provided at the other end of the optical waveguide. The optical waveguide constituted by the core includes a light intensity modulation unit that modulates an intensity of guided light in the optical waveguide. The light intensity modulation unit is constituted by a variable optical attenuator.
US12066664B2
A screen includes a transparent base body with a front face and a rear face, and an image sensor. The base body includes a coupling-in region and a coupling-out region at a distance therefrom in a first direction. The coupling-in region includes a diffractive structure which deflects only part of the radiation incident on the front face and originating from an object to be detected, such that the deflected part is propagated as coupled-in radiation in the base body by reflection, until it reaches the coupling-out region and is incident on said coupling-out region, and the coupling-out region deflects at least part of said incident coupled-in radiation, such that the deflected part exits the base body via the front face or the rear face and is incident on the image sensor.
US12066661B2
An optical device includes a first multi-mode waveguide, a first optical coupler coupled to the first multi-mode waveguide, the first coupler being tapered and curved, and a first single-mode waveguide having a first end coupled to the first optical coupler. The optical device may be used in an optical delay device. A method of propagating light in a first multi-mode waveguide toward a first optical coupler, propagating the light in the first optical coupler toward a first single-mode waveguide, the first optical coupler being tapered and curved, and propagating the light along the first single-mode waveguide is also disclosed.
US12066659B2
Various embodiments of the present disclosure are directed towards an integrated chip including an optical device disposed on a substrate. A dielectric structure overlies the substrate. The dielectric structure comprises one or more sidewalls defining a light channel over a region of the optical device. A protective structure is above the optical device and disposed on opposing sides of the light channel.
US12066648B2
A device is provided. The device includes a first polarization hologram element configured to operate as a half-wave plate for a first light having a first wavelength, and as a full-wave plate for a second light having a second wavelength. The device also includes a second polarization hologram element stacked with the first polarization hologram, and configured to operate as the half-wave plate for the second light and as the full-wave plate for the first light. The first polarization hologram element is configured to forwardly diffract or transmit the first light depending on a handedness of the first light. The second polarization hologram element is configured to forwardly diffract or transmit the second light depending on a handedness of the second light.
US12066645B2
A retroreflective sheet 9 of the present invention includes; a surface layer 1; a glass bead holding layer 5 containing glass beads 3 that are located randomly as viewed cross-sectionally; and a metal reflective layer 4 on a back surface side of the glass bead holding layer 5. The surface layer 1 is a vinyl chloride resin layer. The retroreflective sheet further includes, between the vinyl chloride resin layer and the glass bead holding layer, a barrier layer 2 for preventing deterioration of the metal reflective layer. The barrier layer 2 is preferably an alkyd-melamine resin layer. Thereby, it is possible to provide a retroreflective sheet that can prevent the degradation of, e.g., the reflective function of the metal reflective layer on the back surface side of the glass bead holding layer and thus maintaining high weather resistance and wide-angle reflectivity, and that can exhibit high surface printability.
US12066629B2
There is provided an image display apparatus and a head-mounted display that includes the image display apparatus, the image display apparatus being capable of presenting an image having a large field of view to a user. The image display apparatus includes a lens portion and an enlargement portion. Pieces of light each corresponding to a corresponding one of a plurality of identical images enter the lens portion. The pieces of light passing through the lens portion enter the enlargement portion.
US12066627B2
A head-up display system for a vehicle having a windshield is provided. The head-up display system includes a first image generation device and an optical system. The first image generation device is configured to provide a first light. The optical system is configured to reflect the first light. A first distance between the first image generation device and the optical system is greater than a second distance between the optical system and the windshield.
US12066624B2
The present invention relates to a stereo eye tracking technique. The eye tracking device comprises a processing unit configured and operable for receiving at least one image being indicative of a user's eye; identifying in the image a first data being indicative of pupil's parameters; receiving a second data being indicative of an alternative eye tracking, wherein the second data is more accurate than the first data; and correlating between the first and second data and determining a three-dimensional position and gaze direction of the user's eye.
US12066615B2
An apparatus for light-beam scanning microscopy includes a microscope objective and a movement system for moving an excitation light beam. The movement system for moving the excitation light beam includes a first focusing optical component suitable for focusing the excitation light beam in an intermediate focal plane, another focusing optical component suitable for forming an image of the intermediate focal in a focal plane of the microscope objective and a single scanning mirror arranged between the first optical component and the intermediate focal plane, the scanning mirror being mounted on a stage, the orientation of which can be adjusted, so as to move the image of the focusing point in two transverse directions in the object focal plane or in the image focal plane of the microscope objective.
US12066604B2
A 4K high-resolution panoramic annular optical system includes a panoramic annular lens head unit, a subsequent lens group, and a 4K sensor (SE) that is coaxially installed. The panoramic annular lens head unit includes a first lens (PALIPAL1) and a second lens (PAL2). The subsequent lens group includes a third lens (RL1), a fourth lens (RL2), a fifth lens (RL3), a sixth lens (RL4), a seventh lens (RL5), an eighth lens (RL6), and a ninth lens (RL7) that are arranged in order from an object plane to an image plane. The first lens (PAL1) and the fifth lens (RL3) are meniscus glass lenses with positive refractive power. The six lens (RL4) and the ninth lens (RL7) are meniscus glass lenses with negative refractive power, and the second lens (PAL2), the fourth lens (RL2), the seventh lens (RL5), and the eighth lens (RL6) are biconvex lenses with positive refractive power.
US12066593B2
The compound having a high refractive index characteristic and a high transmittance is a (meth)acrylate compound represented by the following general formula (1): in the general formula (1), X represents a phenylene group, Z1 to Z3 are selected from the group consisting of a phenyl group, a heteroaryl group, a phenylene group, a heteroarylene group, a phenylalkylene group having an alkylene group having 1 or more to 4 or less carbon atoms, and a heteroaralkylene group having an alkylene group having 1 or more to 4 or less carbon atoms, P1 to P3 are selected from the group consisting of an acryloyloxy group and a methacryloyloxy group, A is selected from the group consisting of an aryl group, a heteroaryl group, an arylene group, and a heteroarylene group, and “m” and “n” each represent 0 or 1, provided that when the “m” represents 0, the “n” represents 0.
US12066589B2
Systems and methods for imaging properties of subterranean formations (136) in a wellbore (106) include a formation sensor (120, 200) for collecting currents (304A, 304B) injected into the subterranean formations (139) and a formation imaging unit (118). The formation imaging unit (118) includes a current management unit for collecting data from the currents injected into the subterranean formations (136) and a formation data unit (116) for determining at least one formation parameter from the collected data. The formation imaging unit (118) also includes an inversion unit for determining at least one formation property by inverting the at least one formation parameter. The inversion unit is suitable for generating an inverted standoff image and an inverted permittivity image for comparison with a composite image of the formation imaging unit.
US12066580B2
A photodetection device includes a substrate and a plurality of pixel units. The plurality of pixel units includes a pixel unit including a first photodetector in an active area, and a pixel unit including a second photodetector in an inactive area. The first photodetector includes a first lower electrode layer, a first lower extrinsic semiconductor layer, a first intrinsic semiconductor layer, a first upper extrinsic semiconductor layer, and a first upper electrode layer. The second photodetector includes a second lower electrode layer, a second lower extrinsic semiconductor layer, a second intrinsic semiconductor layer, a second upper extrinsic semiconductor layer, and a second upper electrode layer. The second lower electrode layer is covered with the second lower extrinsic semiconductor layer and the second intrinsic semiconductor layer.
US12066575B2
In one embodiment, a lidar system includes a light source configured to emit pulses of light. The emitted pulses of light include one or more series of standard-resolution pulses alternating with one or more series of high-resolution pulses. Each series of the standard-resolution pulses includes multiple pulses having a standard pulse period, and each series of the high-resolution pulses includes multiple pulses having a high-resolution pulse period. The standard pulse period is greater than or equal to a round-trip time associated with a maximum range of the lidar system, and the high-resolution pulse period is less than the standard pulse period. The lidar system also includes a scanner configured to scan at least a portion of the emitted pulses of light across a field of regard.
US12066573B2
An optoelectronic sensor for detecting an object in a monitored zone having at least one light source for transmitting transmitted light, a light receiver having a reception optics arranged upstream for generating received signals from light beams remitted at the object, and a control and evaluation unit for acquiring information on the object from the received signals has a beam splitter arrangement arranged downstream of the light source for splitting the transmitted light into a plurality of transmitted light beams separated from one another, wherein the beam splitter arrangement includes a plurality of switchable beam splitters for splitting the transmitted light.
US12066571B2
Example embodiments relate to techniques for detecting adverse road conditions using radar. A computing device may generate a first radar representation that represents a field of view for a radar unit coupled to a vehicle and during clear weather conditions and store the first radar representation in memory. The computing device may receive radar data from the radar unit during navigation of the vehicle on a road and determine a second radar representation based on the radar data. The computing device may also perform a comparison between the first radar representation and the second radar representation and determine a road condition for the road based on the comparison. The road condition may represent a quantity of precipitation located on the road and provide control instructions to the vehicle based on the road condition for the road.
US12066569B2
A radar apparatus includes a radar transmission circuit that transmits a radar signal from a transmission array antenna, and a radar reception circuit that receives, from a reception array antenna, a reflected wave signal that is the radar signal reflected at a target. One of the transmission array antenna and the reception array antenna includes a first antenna element group having m antenna elements arranged at a first interval Dt along a first axis direction, wherein m is an integer of 2 or larger. The other one of the transmission array antenna and the reception array antenna includes a second antenna element group having n antenna elements arranged at a second interval Dr along the first axis direction, wherein n is an integer of 4 or larger. The second interval Dr includes several different intervals.
US12066564B2
Described herein are systems and methods for detecting microwave pulses. An example method may include identifying, by a first sensor, a first signal in an environment, the first signal including a signal in a microwave frequency range. The example method may also include determining first data associated with the first signal, the first data being associated with one or more parameters. The example method may also include determining that the first data exceeds a threshold. The example method may also include sending, based on the determination that the first data exceeds a threshold, an alert.
US12066548B2
A light detection and ranging (LIDAR) system for a vehicle, includes a laser source configured to generate light signals, a transceiver, and a fiber array coupled to the transceiver and including a plurality of output channels. The transceiver is configured to receive one or more light signals from the laser source through a first group of output channels of the fiber array, receive one or more local oscillator (LO) signals through a second group of output channels of the fiber array, transmit the one or more light signals into an environment of the vehicle, receive a first returned light reflected from one or more objects in the environment, and output the first returned light and a first LO signal of the one or more LO signals.
US12066544B2
At a preparatory step for correction, in a state that a reflective tape made with a retroreflective material is pasted in advance onto a floor surface of a measurement space in a direction away from the distance-measuring device, a distance La to an inside area of the reflective tape, and a distance Lb to an outside area of the reflective tape adjacent to the inside area are measured by the distance-measuring device, while measurement positions Y are being scanned along the reflective tape. A correction formula for converting the distance Lb to the distance La is created from a relationship between the distance La and the distance Lb obtained at each measurement position Y. At an actual measurement step, a distance (actual measurement value x) to the target object measured by the distance-measuring device is corrected in accordance with the correction formula, and a measurement-distance corrected value y is calculated.
US12066534B2
A method for determining spin of a projectile comprising generating an electromagnetic radar signal and transmitting the electromagnetic radar signal towards a projectile. Receiving a reflected electromagnetic radar signal from the projectile. Identifying a component of the reflected electromagnetic radar signal, and performing an autocorrelation process on the reflected electromagnetic radar signal using the component to generate an estimate of a spin of the projectile as a function of the autocorrelation process.
US12066525B2
Example embodiments relate to techniques for three dimensional (3D) object detection and localization. A computing system may cause a radar unit to transmit radar signals and receive radar reflections relative to an environment of a vehicle. Based on the radar reflections, the computing system may determine a heading and a range for a nearby object. The computing system may also receive an image depicting a portion of the environment that includes the object from a vehicle camera and remove peripheral areas of the image to generate an image patch that focuses upon the object based on the heading and the range for the object. The image patch and the heading and the range for the object can be provided as inputs into a neural network that provides output parameters corresponding to the object, which can be used to control the vehicle.
US12066523B1
A radar-based system for communicating information to a vehicle uses spatially-encoded markers that are positioned proximate to a roadway traveled by the vehicle. The markers are designed to convey a unique radar signature that distinguishes the markers from other objects. The unique radar signature or marker characteristics are further interpreted by at least one controller on the vehicle as encoded messages. Marker distinguishing characteristics, such as size, shape, orientation and movement, provide distinct information to the controller. The controller may use the conveyed information to make control decisions for the vehicle or to display the conveyed information to occupants of the vehicle. In some cased, the controller may use the conveyed information to determine a location of the vehicle, such as a position of the vehicle within a lane.
US12066509B2
In one embodiment, an MRI apparatus includes: a transmission circuit configured to apply a transmission pulse to an object; at least one radio frequency (RF) coil configured to include an active trap circuit provided with a PIN diode, and to receive a magnetic resonance signal from the object; a power supply circuit configured to apply a reverse bias voltage and a forward bias voltage to the PIN diode, and to apply multiple values of a forward current when the forward bias voltage is applied to the PIN diode; and a control circuit configured to control the power supply circuit in such a manner that the power supply circuit sets the forward current to the multiple values, depending on imaging conditions.
US12066507B2
Proposed is a phase shift introduction method, a structure, and a circuit device for eliminating or minimizing a risk associated with dissimilar materials, solving in principle a problem of mixing of a signal current and a control current that occurs due to DC connection of a phase shifter to a signal line, and stably and reliably providing a phase shift that is desired to be introduced without being adversely effected by noise generated by an ambient magnetic field, which is generated due to use of an external power supply. A structure according to the present invention includes a phase shifter 101 and a closed-loop circuit 103 that is directly used for computation or storage, and a quantum phase shift is generated in the closed-loop circuit 103 by using a fractional flux quantum captured by the phase shifter 101 that is DC-separated from the closed-loop circuit 103.
US12066504B2
A method performed by a control unit for determining an indication of whether three phase cables are correctly or erroneously connected between power electronics and an electrical machine comprised in an at least partly electrically operated vehicle or vessel. The control unit triggers generation of a current vector in the electrical machine from a voltage vector. The voltage vector has a voltage angle. When the current vector has a reached a current amplitude reference, the control unit obtains a current angle of the current vector and signs of derivatives of the voltage angle and the current angle. Based on the signs of derivatives, the control unit determines an indication of whether or not the phase cables are correctly or erroneously connected.
US12066501B2
A peak current detector is integrated into a power supply, such as a power management integrated circuit, to detect glitch attacks imposed on the power rails inside the power supply. Integrated circuitry being supplied by the power supply periodically checks the state of the power supply via a secure communication channel to obtain the detected peak current values, which allow the integrated circuitry to detect those attacks and react accordingly to any possible threats.
US12066499B2
A system and method for performing a self-testing a piezo sounder using a feedback pin while being driven by an ultra-sonic frequency. A method includes operating a sounder device in a test mode, the sounder device is operated in an inaudible frequency range during the test mode and detecting a feedback response voltage. The method includes comparing the feedback response voltage to a reference voltage and providing an indication of a failure mode based at least in part on the feedback response voltage.
US12066496B2
A secondary battery diagnosing technology capable of effectively diagnosing a state of a secondary battery using a charge and discharge signal of the secondary battery, including a memory unit configured to store a positive electrode reference profile and a negative electrode reference profile for charge or discharge of a reference battery, a voltage measuring unit configured to measure a voltage of a target battery during a charge or discharge process, and a processor configured to generate a charge and discharge measurement profile based on the voltage, compare a simulation profile obtained from the positive electrode reference profile and the negative electrode reference profile with the generated charge and discharge measurement profile, and determine a positive electrode adjustment profile and a negative electrode adjustment profile so that an error between the simulation profile and the charge and discharge measurement profile is within a predetermined level.
US12066492B2
A battery and alternator simulator for use in testing operational capability of a battery tester includes a user interface configured to receive a user input signal associated with a desired testing condition. The simulator additionally includes a signal database includes a plurality of testing conditions and a plurality of testing signals stored thereon, each testing condition being matched with one of the plurality of testing signals. A processor is in communication with the user interface and the signal database, with the processor being configured to identify one of the testing signals based on the testing condition associated with the received user input signal. A pair of testing terminals is in operative communication with the processor and is configured to be electrically connectable to a corresponding pair of terminals on the battery tester for communicating the testing signal to the battery tester.
US12066489B2
Systems, methods, and devices are described herein for pre-setting scan flip-flops using combinational logic circuits. A system includes a plurality of flip-flop devices and a first pre-setting combinational logic circuit. The plurality of flip-flop devices are coupled together in series and configured to receive a scan input signal, capture data output from each flip-flop device of the plurality of flip-flop devices based on the scan input signal, and generate a scan output signal comprising the captured data. The first pre-setting combinational logic circuit is coupled to a first flip-flop device of the plurality of flip-flop devices. The first pre-setting combinational logic circuit includes a plurality of transistors and is configured to override and set either the scan input signal to the first flip-flop device or the scan output signal of the first flip-flop device based on selective operation of the plurality of transistors.
US12066485B2
A circuit fault detection apparatus includes an AD conversion circuit, a corrector, a threshold value setting device and a fault detector. The AD conversion circuit detects a voltage corresponding to a current flowing through a circuit fault detection element connected to the electric circuit or a voltage applied to the circuit fault detection element, and converts the voltage to a digital value. The corrector corrects the digital value or a measurement value as a voltage value representative of the digital value to a corrected measurement value. The threshold value setting device sets a threshold value closer to a normal value side than a limit value of the corrected measurement value determined based on a convertible range of the AD conversion circuit. The fault detector detects whether the fault occurs in the electric circuit, based on comparison between the threshold value and the corrected measurement value.
US12066484B2
The present disclosure provides a method and a system for testing semiconductor device. The method includes providing a device under test (DUT) having an input terminal and an output terminal; applying a voltage having a first voltage level to the input terminal of the DUT during a first period; applying a stress signal to the input terminal of the DUT during a second period subsequent to the first period; obtaining an output signal in response to the stress signal at the output terminal of the DUT; and comparing the output signal with the stress signal. The stress signal includes a plurality of sequences, each having a ramp-up stage and a ramp-down stage. The stress signal has a second voltage level and a third voltage level.
US12066483B2
One example includes a method for testing an IC device at a testing temperature. The method includes fabricating the IC device based on a circuit design. The IC device includes a power transistor, conductive I/O leads, a temperature test switch system coupled between the conductive I/O leads, and a thermal diode coupled to the temperature test switch system. The method also includes coupling the conductive I/O leads of the IC device to a circuit test fixture and activating the power transistor to conduct a current in the IC device via the circuit test fixture. The method also includes periodically measuring a temperature of the IC device by measuring a voltage across the thermal diode via the conductive I/O leads based on the temperature test switch system until achieving the testing temperature. The method further includes performing functional measurements associated with the IC device at the testing temperature.
US12066477B2
Provided are a directional pattern calculation method and apparatus for a beam pointing adjustable antenna. In the design method, key control factors are quantized, for example, a arrangement and combination modes for a plurality of slot units and wave-controlled codes for conducting and cut-off states of a slot unit, and different combinations of slot units and a far-field directional pattern of a controlled array antenna are evaluated, so that electrical performance indicators of the array antenna can be further evaluated. Weighting calculation is implemented for a directional pattern of a beam pointing adjustable antenna. Key information such as a form of a slot unit and a arrangement and combination modes for slot units can be globally optimized.
US12066467B2
An electro-wetting on dielectric (EWOD) device, comprises first and second substrates defining a fluid chamber therebetween, a plurality of electro-wetting electrodes on the first substrate, and at least one first electrode and at least two second electrodes on the second substrate. The device further includes a current sensor for sensing a difference between (1) a first current flowing between the first electrode and one of the second electrodes via a first fluid package in the fluid chamber of the EWOD device and (2) a second current flowing between the first electrode and another of the second electrodes via a second fluid package in the fluid chamber of the EWOD device.
US12066466B2
A current measurement device includes: four or more triaxial magnetic sensors arranged to have predefined positional relationships such that magnetism-sensing directions thereof are parallel to each other; and a calculator configured to calculate currents flowing through a pair of conductors to be measured, which are arranged in proximity to each other, based on detection results of the four or more triaxial magnetic sensors and the positional relationships between the four or more triaxial magnetic sensors, the currents flowing in mutually opposite directions.
US12066463B2
An information processing apparatus includes an extraction unit, a determination unit, a display control unit, and a display unit. The extraction unit is configured to extract, by predetermined pattern matching, candidate peaks in a certain arbitrary period of time from among at least one or more pieces of waveform data. The determination unit is configured to determine, from among the candidate peaks of the waveform data, a single peak based on a score related to the pattern matching. The display control unit is configured to output display information for displaying a position of the peak. The display unit is configured to display the display information.
US12066452B2
A method of determining density of a fluid within a system includes actuating a piston of a hydraulic cylinder at a target velocity. Additionally, the method includes determining differential pressure and volumetric flow rate of the fluid flowing through an orifice under actuation of the piston. The density of the fluid is determined based on the first differential pressure and the volumetric flow rate of the fluid, which is used by the system to regulate a mass flow rate of fluid within the system.
US12066451B2
A vibrating meter comprises a vibrating element with a longitudinal direction and a cross-sectional area in a plane perpendicular to the longitudinal direction. The vibrating element moves between a first position and a second position in a plane perpendicular to the longitudinal direction of the vibrating element. An electronics is operable to drive the vibrating element between the first position and the second position. A boundary element and the vibrating element define a fluid velocity boosting gap having an average gap distance between the boundary element and the vibrating element. The vibrating element includes a gap-facing perimeter section facing the fluid velocity boosting gap having a gap perimeter length. In embodiments, a ratio of the gap perimeter length to the average gap distance is at least 160. In further embodiments, the average gap distance is 0.25 mm or less.
US12066442B2
The invention relates to methods of assessing a patient's risk of developing Progressive multifocal leukoencephalopathy (PML).
US12066440B2
Methods, devices, systems, and apparatuses are provided for the image analysis of measurement of biological samples.
US12066434B2
The present invention provides, among other things, QMAX card based assays in different forms for various analytes, offering simpler, fast, more sensitive assaying.
US12066431B2
Disclosed herein are human trophoblast stem (hTS) cells, differentiated cells thereof, derivatives thereof such as cellular mass, and uses thereof. The isolation of hTS cells can express FGF4, FGFR-2, Oct4, Thy-1, and stage-specific embryonic antigens distributed in different compartments of the cell. The hTS cells are able to derive into specific cell phenotypes of the three primitive embryonic layers, produce chimeric reactions in mice, and retain a normal karyotype and telomere length. In the hTS cells, Oct4 and fgfr-2 expressions can be knockdown by bFGF. The hTS cells could apply to human cell differentiation and for gene and cell-based therapies.
US12066420B2
An analyzer and a control method thereof, a detection system, and a storage medium are provided. The control method of the analyzer includes: determining whether the analyzer obtains an analysis parameter corresponding to a detection chip used for detection: requesting and obtaining the analysis parameter in a case of being determined that the analyzer does not obtain the analysis parameter; and performing detection on the detection chip and analyzing a substance to be analyzed contained in the detection chip by using the analysis parameter to obtain analysis data of the substance to be analyzed in a case of being determined that the analyzer obtains the analysis parameter.
US12066419B1
A sensor and method for the rapid detection of fluoride containing gaseous species specifically the chemical warfare agents Sarin and Soman nerve gas, in which a chemically sensitive composition containing dye indicator molecules complexed with a heavy metal salt is exposed to an environment under surveillance for toxic gasses. In one embodiment the sensing composition is introduced into a polymer-based substrate. The detection composition reacts with hydrogen fluoride which is a decomposition by-product of Sarin and Soman gas so as to change the color of the dye indicator, in one embodiment being pentamethoxy red, that is to change the color of the polymer-based substrate from colorless to a dark purple color. The complex of pentamethoxy red with the exemplary heavy metal salt, zirconyl chloride, is specific for Sarin and Soman nerve gas; it does not react to certain other toxic gases. In various embodiments a hydrolyzing agent is introduced in the polymer-based substrate to improve the detection reaction sensitivity and to increase the reaction rate and decrease the detection time for sensor chemistry.
US12066414B2
A modular gas detection system includes a primary gas chromatograph, a constant volume extractor positionable to provide a continuous fluid sample to the primary gas chromatograph, and a total hydrocarbon analyzer. The modular gas detection system also includes a processing device and a memory device including instructions executable by the processing device for causing the processing device to perform operations. The operations include adjusting a detection scheme of the primary gas chromatograph to update a detection range for the continuous fluid sample to detect different hydrocarbons within a single column. Further, the operations include controlling routing of the continuous fluid sample from the constant volume extractor to the primary gas chromatograph and the total hydrocarbon analyzer.
US12066411B2
Safety systems and material testing systems including safety systems are disclosed. An example material testing system includes: at least one actuator configured to control one or more operator-accessible components of the material testing system; an actuator disabling circuit configured to disable the at least one actuator; and one or more processors configured to: control the at least one actuator based on a material testing process; monitor a plurality of inputs associated with operation of the material testing system; determine, based on the plurality of inputs and the material testing process, a state of the material testing system from a plurality of predetermined states, the predetermined states comprising one or more unrestricted states and one or more restricted states; and control the actuator disabling circuit based on the determined state.
US12066406B1
A downhole imaging tool and method of operating the tool in a wellbore. An imaging sensor array at an end of the tool is rotatable about a longitudinal axis of the tool to image the well by sweeping out a 2D area of the well. Actuators in the tool provide rotation and/or extension of the sensor array to change perspective. An ultrasound phased-array may be used to measure and identify features of the well or objects.
US12066399B2
Methods and apparatus relating to very large scale FET arrays for analyte measurements. ChemFET (e.g., ISFET) arrays may be fabricated using conventional CMOS processing techniques based on improved FET pixel and array designs that increase measurement sensitivity and accuracy, and at the same time facilitate significantly small pixel sizes and dense arrays. Improved array control techniques provide for rapid data acquisition from large and dense arrays. Such arrays may be employed to detect a presence and/or concentration changes of various analyte types in a wide variety of chemical and/or biological processes. In one example, chemFET arrays facilitate DNA sequencing techniques based on monitoring changes in hydrogen ion concentration (pH), changes in other analyte concentration, and/or binding events associated with chemical processes relating to DNA synthesis.
US12066393B1
A moisture detection system may include a baseboard including a first electrode and a second electrode; and a moisture detector configured to detect whether a circuit is closed by a conductive liquid making simultaneous contact with the first electrode and the second electrode.
US12066388B2
In order to reduce inspection tact time in centralized management of a plurality of inspection lines, the system includes: a plurality of inspection lines 4 each having a visual appearance inspection device 3; a first database 5A for storing a captured image captured by each of the visual appearance inspection device 3; and a centralized control device 6 connected to each of the visual appearance inspection devices 3 and the first database 5A, having a display unit 32 that displays an inspection image of an inspection object 7, and enabling visual inspection of the inspection object 7 conveyed on each of the inspection lines 4 in a centralized manner; wherein, while one of the inspection lines 4 is inspected by using the centralized control device 6, the visual appearance inspection devices 3 of the other inspection lines 4 pre-captures the inspection object 7 conveyed on the inspection line 4 under predetermined capturing conditions and stores the pre-captured image in the first database 5A, and wherein the pre-captured image read from the first database 5A is displayed on the display unit 32 in the visual inspection.
US12066385B2
A method for use in measuring one or more characteristics of patterned structures, the method including providing measured data comprising data indicative of at least one Raman spectrum obtained from a patterned structure under measurements using at least one selected optical measurement scheme each with a predetermined configuration of at least one of illuminating and collected light conditions corresponding to the one or more characteristics to be measured, processing the measured data, and determining, for each of the at least one Raman spectrum, a distribution of Raman-contribution efficiency (RCE) within at least a part of the structure under measurements, being dependent on characteristics of the structure and the predetermined configuration of the at least one of illuminating and collected light conditions in the respective optical measurement scheme, and analyzing the distribution of Raman-contribution efficiency and determining the one or more characteristics of the structure.
US12066384B2
A quality control method for a diisononyl phthalate includes a measuring step of irradiating the diisononyl phthalate with a laser to measure a Raman spectrum; and an acceptance or rejection decision step of determining an acceptance or a rejection of a quality of the diisononyl phthalate on the basis of a high and low intensity relationship between an intensity of a first spectral peak, which is ascribed to a vibration of molecular chains in a straight chain hydrocarbon, and an intensity of a second spectral peak, which is ascribed to a vibration of isopropyl groups, in the measured Raman spectrum.
US12066373B2
A system and method for isolating and analyzing single cells, including: a substrate having a broad surface; a set of wells defined at the broad surface of the substrate, and a set of channels, defined by the wall, that fluidly couple each well to at least one adjacent well in the set of wells; and fluid delivery module defining an inlet and comprising a plate, removably coupled to the substrate, the plate defining a recessed region fluidly connected to the inlet and facing the broad surface of the substrate, the fluid delivery module comprising a cell capture mode.
US12066370B2
The present disclosure relates to a flow cell carrier. The flow cell carrier may include a flow cell and a frame. The frame may include a pocket and a handle. The pocket may have at least one spring feature and at least one banking feature. The frame may be configured to retain the flow cell within the pocket such that a maximal surface area of the flow cell is exposed to an optical lens. Related methods and kits are also disclosed.
US12066367B2
Time multiplexing an electromagnetic trap beam may be used to generate trap shapes/geometries to trap one or more particles with one electromagnetic beam by directing the electromagnetic beam at a pattern of different locations with sufficient rapidity to form an effective shape/geometry. Additionally, multiplexing an electromagnetic trap beam may be used to shutter trapping electromagnetic radiation to protect a viewer, use the same beam for multiple functions, move and organize particles, and generate illumination effects.
US12066361B2
In a method for analyzing samples of a gas in a rotary cement kiln by at least one gas sampling probe, a first and a second gas sampling probe are provided, wherein the first gas sampling probe is moved so as to reach a sampling position, wherein gas samples are withdrawn from the kiln and analyzed by the first gas sampling probe being in the sampling position, while the second gas sampling probe is kept in a retracted position and is purged, whereupon the second gas sampling probe is moved so as to reach a sampling position, and the first gas sampling probe is moved from the sampling position to the retracted position and is purged, while gas samples are withdrawn from the kiln and analyzed by the second gas sampling probe being in the sampling position.
US12066359B2
An automated computer-controlled sampling system and related methods for collecting, processing, and analyzing agricultural samples for various chemical properties such as plant available nutrients. The sampling system allows multiple samples to be processed and analyzed for different analytes or chemical properties in a simultaneous concurrent or semi-concurrent manner. Advantageously, the system can process soil samples in the “as collected” condition without drying or grinding. The system generally includes a sample preparation sub-system which receives soil samples collected by a probe collection sub-system and produces a slurry (i.e. mixture of soil, vegetation, and/or manure and water), and a chemical analysis sub-system which processes the prepared slurry samples for quantifying multiple analytes and/or chemical properties of the sample. The sample preparation and chemical analysis sub-systems can be used to analyze soil, vegetation, and/or manure samples.
US12066355B2
A sniffer probe for a leak detector for monitoring the leaktightness of an object to be tested by tracer gas includes an end piece created in the form of a rigid tube, a housing, a connection member connecting the end piece to the housing, and a sampling duct to sample a gas at a first end of the end piece. The connection member includes a main body that is elastically deformable such that it can adopt a deformed position, making it possible for the end piece to pivot when acted upon by a force and to return to the initial rest position.
US12066354B2
The invention relates to a leak detection device comprising: a portable leak detection bell-like member comprising a sealing joint and configured to define a detection chamber between the main body and the test zone, the detection bell-like member further comprising a carrying handle which is provided with a control member which can be manually activated to produce a control signal, a gas suction circuit which is intended to connect the detection chamber to a vacuum pump, the gas suction circuit being provided with a controlled valve which can be switched into an open state to connect the detection chamber to the vacuum pump and a closed state to isolate the detection chamber from the vacuum pump, and a control unit which is configured to switch the controlled valve in response to the control signal.
US12066353B2
Embodiments of the disclosure are drawn to apparatus and methods for determining gas flux measurements. A gas plume may be emitted from a source and may be blown by wind in an environment. A measurement system, such as a light detection and ranging (lidar) system may collect a plurality of gas concentration measurements associated with the gas plume at a plurality of locations in the environment. A gas flux may be determined based on one or more of the gas concentration measurements along with a wind speed at a location associated with the gas plume. In some embodiments, a height of the gas plume may be determined, and the wind speed at the height of the gas plume may be determined and used to determine the gas flux.
US12066347B2
Tactile sensing using both coarse and fine tactile sensors. A coarse tactile sensor having a first sensitive area at least partially encompasses or overlies a plurality of fine tactile sensors, each having a respective sensitive area smaller than the first sensitive area. The coarse tactile sensor(s) and fine tactile sensors may be carried on a same circuit board or separate circuit boards. Processor(s) circuits are communicatively coupled to the coarse and/or fine tactile sensors. Information indicative of at least a presence or absence of force or pressure at a given location monitored by the respective tactile sensor, and/or a measure of the force or pressure or strain is collected. Such may be mounted to a backing, and optionally covered or encased in an artificial skin. Collecting sensor readings employs both coarse and fine tactile sensors, sampling corresponding fine tactile sensors in response to detection by a coarse tactile sensor.
US12066338B2
A force-measuring device (FMD) assembly for a portable electronic apparatus includes a mid-frame including a base portion, a sidewall portion, and a transition region between the base portion and the sidewall portion, and force-measuring devices coupled to the inner surface of the sidewall portion. The sidewall portion and the transition region are elongate along a longitudinal axis. FMDs are coupled to the inner surface at respective contact regions of the sidewall portion and are separated from each other along the longitudinal axis. Each of the FMDs includes strain-sensing element(s). Each of the FMDs corresponds to a respective sense region of the sidewall portion. The transition region includes a respective elongate slit or trough for each of the sense regions. The respective elongate slit or trough is elongate along the longitudinal axis. Adjacent elongate slits or troughs are separated by a respective rib.
US12066334B2
A sensor configured to sense heat or infrared light including a substrate includes a plurality of recess portions; a cavity inside the substrate along a bottom surface and opposing side surfaces of the substrate; a lower reflective layer disposed on at least one of an upper surface of the bottom surface of the substrate, a lower surface of the bottom surface of the substrate, and a surface opposite to the lower surface of the bottom surface of the substrate; a first electrode and a second electrode disposed inside both side surfaces of the recess portion and facing each other; a pixel structure configured to sense heat or infrared light inside the recess portion and embedded in the substrate; and a planarization layer covering the entire upper portion of the substrate.
US12066333B2
An image forming device according to an embodiment includes a human sensor configured to detect a person in front of the device and an adjustment mechanism configured to move the human sensor to adjust a detection distance. A sensor cover panel is provided for an exterior of the device and is configured to cover the human sensor and the adjustment mechanism. The adjustment mechanism includes an operator element that is manually operable by a user to adjust the detection distance. The human sensor and adjustment mechanism are disposed behind the sensor cover panel. The sensor cover panel has a detection window through which a detection wave for the human sensor can pass. The sensor cover panel has an opening through which the operator element is exposed so as to be seen by a user from both the front side and a lateral side of the device.
US12066327B2
A method for determining a calibration function includes: calculating a first distance, between a distribution of target spectra and a comparison distribution of spectra; calibrating the distribution of target spectra with a first preliminary calibration function to form a first distribution of calibrated target spectra; calculating a second distance, between the first distribution of calibrated target spectra and the comparison distribution of spectra; determining that the second distance is less than the first distance; and setting the calibration function equal to the first preliminary calibration function.
US12066324B2
Radiation sensor including a detection assembly and a chopper assembly, which are mechanically coupled to delimit a main cavity; and wherein the chopper assembly includes: a suspended movable structure, which extends in the main cavity; and an actuation structure, which is electrically controllable to cause a change of position of the suspended movable structure. The detection unit includes a detection structure, which faces the main cavity and includes a number of detection devices. The suspended movable structure includes a first shield of conductive material, which shields the detection devices from the radiation, the shielding of the detection devices being a function of the position of the suspended movable structure.
US12066323B2
A color filter array may include a plurality of color filters arranged two-dimensionally and configured to allow light of different wavelengths to pass therethrough. Each of the plurality of color filters includes at least one Mie resonance particle and a transparent dielectric surrounding the at least one Mie resonance particle.
US12066322B2
An overlay metrology system may include an objective lens, illumination optics to illuminate an overlay target including a first grating with a first pitch on a first sample layer and a second grating with a second pitch on a second sample layer, where the first and second sample layers are separated by a layer separation distance greater than a depth of field of the objective lens. The system may further include collection optics with a radially-varying defocus distribution to compensate for the layer separation distance such that the first and second gratings are simultaneously in focus on the detector.
US12066320B2
An electronic measurement device or electronic scale including an arrangement of multiple low-cost sensors to measure a physical property of an object is disclosed. The electronic measurement device or electronic scale utilizes an accurate and effective calibration method that compensates for the idiosyncrasies of using individual sensors. The electronic measurement device positions a plurality of sensors at predetermined observational locations to provide sensor output signals in response to sensing physical characteristics of the physical property of the object to be measured and combines the different sensor output signals by applying a combined calibration transfer function that represents a calibration function for each of the plurality of sensors to provide a cumulative measurement signal that represents the measurement of the physical property of the object. A centroid of the mass of the object is computed and used to execute different applications.
US12066319B2
A multi-purpose child support assembly is provided. The multi-purpose child support assembly includes a frame, a weighting module and a support component. The frame includes a lower frame and an upper frame movably connected to the lower frame. The weighting module disposed on the frame and between the lower frame and the upper frame. The support component is connected to the upper frame and defines a supporting area for a child between the upper frame and the lower frame.
US12066314B2
A truck scale management system is disclosed that is configured to obtain pricing data for a plurality of products, obtain payment information corresponding to an entity, obtain payment information corresponding to a scale-owner, generate a virtual scale that is configured to obtain scale data from a physical scale associated with the scale-owner, generate a virtual kiosk corresponding to the virtual scale that is configured for use during weighments of trucks on the physical scale and is associated with a given product of the plurality of products, receive a weigh ticket from the virtual kiosk corresponding to a weighment of a given truck that is carrying the given product and is associated with the entity, generate an invoice based on the received weigh ticket and the obtained pricing data and execute a payment of the invoice based on the obtained payment information corresponding to the entity and the scale-owner.
US12066309B2
A variable area flowmeter having a float and having a display unit, the display unit includes a pointer element, the pointer element is connected directly or indirectly to the float such that the pointer element is mechanically deflected by the float during the measuring process. The variable area flowmeter that operates particularly reliably and is flexibly applicable at the same time is achieved in that the display unit comprises at least one bi-stable display which only requires an energy supply in order to modify the displayed representation and/or to restore the representation.
US12066297B2
Systems and methods for personalized route prediction including receiving, at a first time, first input data associated with a first route; populating a first database with the input data; receiving, at a third time, second input data associated with a second route; comparing the second input data to the first input data included within the first database; determining, based on the comparison, a first cluster including the first data and the second input data or a second cluster including the second input data; populating a second database based on the first cluster or the second cluster; determining, using the first database and at a second time, at least one of: predicted departure data, predicted destination data, and/or predicted route data; and causing, based on the predicted departure data, predicted destination data, and/or predicted route data, to perform an action in association with a vehicle.
US12066296B2
Aspects are described herein that are capable of providing a vehicle configuration for a vehicle that is optimized to maximize the customer's performance priorities while additionally complying with regulatory emissions requirements and equipment regulations. A machine learning (ML) predictive model is trained based on simulations run on combinations of vehicle configurations and routes and on real-world telematics data, and used to determine a vehicle configuration optimized for a representative route.
US12066287B2
A solution for evaluating a component of a vehicle, such as a brake pad of a rail vehicle, is provided. An imaging component can acquire image data for a target area of the vehicle within which at least a portion of the component is visible. The target area can be illuminated by an illumination device that is, for example, horizontally offset from the imaging device to highlight the three-dimensional structure in the target area by creating shadows in the image data. A set of points corresponding to the component can be identified in the image data using the shadows. A measurement for at least one attribute of the component can be calculated from the set of points.
US12066285B2
An assembly includes a hoist or a winch, a cable, and a fleet angle sensor. The fleet angle sensor includes a frame disposed around an opening and the cable extends through the opening. A first photodetector with multiple light-receiving zones is mounted on the frame. A first light source is mounted on the frame opposite the first photodetector. A shield device is under the frame and includes a shield frame and a cover. The shield frame is around the cable and the cover extends from the shield frame toward the cable, with the cable extending through the cover.
US12066277B1
The invention refers to a pyrotechnic latch retraction mechanism that can be applied to various types of flying devices. The main structure of this mechanism includes piston-cylinder assembly, electric ignition assembly and guide assembly. The solution described in this invention not only makes the exploitation, use and preservation of equipment more convenient, reduces difficulties, prevents risks and saves costs, but also ensures safety and security, reliability during device operation.
US12066268B2
A rifle includes a magazine well, a barrel, and an exo-bolt. The barrel is configured to be detachably coupled to the magazine well. The barrel includes a forward barrel portion on an end of the barrel opposite the magazine well. The exo-bolt is configured to travel along an exterior of the barrel.
US12066266B2
A precision bore guide and precision bore guide tool is presented that together comprise a main tube, a front stop, a movable stop, and a hollowed-out rifle round, a spring and a guide bolt knob which is inserted into the receiver of a firearm and a rod is inserted into the guide through the main tube and into the hollowed-out round and through the barrel of a rifle firearm.
US12066265B2
The present invention relates to an active system configured to apply an active force to a portion of a firearm designed to contact a body of the firearm's operator, to reduce the perceived recoil of the firearm. The active system includes an actuation element capable of generating an active force, and systems for powering and selectively operating the actuation element.
US12066262B2
A method for determining a performance metric based on a discharge event of a firearm is provided. A plurality of first input signals over a sample window of time from a first inertial measurement unit (IMU) configured on the first firearm are received by a first event detection module associated with the first firearm of a first user. An occurrence of a first shot discharge of the first firearm at a first time based on the plurality of first input signals is identified by the first event detection module. An occurrence of a second shot discharge of the first firearm at a second time based on the plurality of first input signals is identified by the first event detection module. A first split time is determined for the first user based on a difference between the first and second times.
US12066256B2
A heat dissipating device that includes a first plate and a second plate opposite the first plate and connected to the first plate by two opposite sidewalls. The first plate and the second plate are connected to each other at longitudinally opposite ends thereof, longitudinally extending ends of the first plate and the second plate are connected to each other by sidewalls, and the first plate, the second plate and the sidewalls enclosing an internal space of the heat dissipating device. The heat dissipating device also includes a first wick structure disposed in the internal space and contacting inner surfaces of at least one of the first plate and the second plate. The first wick structure extends longitudinally between the longitudinally opposite ends of the first plate and the second plate, and the first wick structure at least partially defines a first vapor flow channel of the heat dissipating device.
US12066253B2
A microchannel evaporator includes a plurality of microchannels. Each of the plurality of microchannels includes a first end and a second end. A first end-tank is coupled to each first end of the plurality of microchannels and a second end-tank is coupled to each second end of the plurality of microchannels. A second-fluid inlet is coupled to either the first end-tank or the second end-tank and configured to receive a fluid into the microchannel evaporator and a second-fluid outlet is coupled to either the first end-tank or the second end-tank and configured to expel the fluid from the microchannel evaporator. Each microchannel of the plurality of microchannels includes at least one bend along a length thereof.
US12066250B2
Provided is a method of installing a heat insulating block on a furnace shell which enables a heat insulating block to be firmly fixed to a furnace wall but does not require much time and costs for making the heat insulating block, and which further offers good workability at a site. The method of installing a heat insulating block on a furnace shell includes: inserting a beam of a fixture into a fold of an inorganic fiber aggregate mat that is folded up to form a heat insulating block; and fixing the fixture and a furnace shell to each other.
US12066247B2
The present disclosure provides an air drying device including: a base including opposing top and bottom portions, the top portion including at least one first bearing surface; and at least one bearing plate disposed at the top portion of the base. The bearing plate includes a second bearing surface, and the first bearing surface is inclined relative to the second bearing surface.
US12066246B2
Lyophilization methods for preparing protein formulations for long-term storage at room temperature or improved stability at refrigeration storage are provided. Specifically, the present application provides lyophilization methods to obtain a target percentage of residual moisture of a lyophilized product, such as 3-5% residual moisture. The secondary drying of the lyophilization can be conducted under controlling rate of desorption under a temperature which is similar to the shelf temperature of the primary drying. Alternatively, the lyophilization can be conducted without a distinguished secondary drying step.
US12066245B2
Portable beverage coolers and methods of using the same. An exemplary cooler described herein comprises an outer shell having a general shape as a container, suitable to receive contents therein, a handle pivotally coupled to the outer shell a removable insert configured to fit within the outer shell, said insert configured to receive a liquid or other items therein, and a hinged lid coupled to the outer shell. Said coolers are configured to retain a beverage therein, maintaining a desired cold temperature, and to dispense beverage directly therefrom via a tap.
US12066242B2
The refrigerating apparatus (100) comprises: a refrigerating compartment (105) delimited by a rear wall (105R), and first (105s1) and second (105s2) side walls, a door (110) for closing the compartment (105) and facing the rear wall (105R) when the door (110) is closed, a support element (135;235;335;435;535) within the compartment (105) for supporting an accessory (140,145), wherein the support element (135;235;335;435;535) comprises a rail being a separate part adapted to be fixedly mounted to or fixedly associated with one of the first (105S1) and second (105S2) side walls so as to extend along one of the first (105S1) and second (105S2) side walls, the rail adapted to receive at least partially the accessory (140,145) and to hang it in a cantilevered manner whereby the accessory (140,145) is allowed to be positioned along one of the first (105S1) and second (105S2) side walls in a cantilevered manner.
US12066241B2
In one aspect the invention provides a magnetic door position detection apparatus adapted to attach to a cabinet interior with a door arranged to transition between an open state where the interior of the cabinet is accessible, and a closed state. The door includes a magnetic field generating structure configured to magnetically engage the door with the cabinet in the closed state. The apparatus provided includes a housing configured to attach to the interior of the cabinet and one or more sensors configured to determine change in the magnetic flux field within the interior of the cabinet induced by motion of the magnetic field generating structure in at least one of three orthogonal axes. The sensor or sensors generate an output signal representing the sensed magnetic field change where the one or more axes is indicative of the cabinet door moved between the closed state and the open state.
US12066236B2
A device for making frozen geometric shapes, more particularly, to an ice molding device that shapes ice is disclosed. According to one embodiment, a device comprises a lower chamber of an ice shaping device and a plurality of guideposts on the lower chamber. The device further comprises a semi-spherical cavity in the lower chamber and a hole to fill a hollow chamber of the lower chamber with hot water.
US12066230B2
An evaporator apparatus for a refrigeration cycle of an HVAC system or a refrigeration system is disclosed that includes: a primary evaporator pathway for a working fluid of the refrigeration cycle extending through a primary expansion device and a primary evaporator; a secondary evaporator pathway for the working fluid in parallel with the primary evaporator pathway and extending through a secondary expansion device and a secondary evaporator; a coolant circuit for cooling a device, the secondary evaporator configured for heat exchange between the working fluid and process fluid of the coolant circuit; and a controller configured to control: the primary expansion device to maintain a target superheat of working fluid at a primary control location downstream of the primary evaporator; and the secondary expansion device based on monitoring a temperature of process fluid to maintain a target temperature of process fluid at a coolant control location in the coolant circuit.
US12066228B2
A heating ventilation and air conditioning (HVAC) control system. The HVAC control system includes a sensor that detects a refrigerant released from an HVAC system and emits a signal indicative of the detection. The HVAC control system also includes a switch that blocks a flow of electricity to an enclosed space and a controller that receives the signal from the sensor and activates the switch to block the flow of electricity in response to detection of the refrigerant.
US12066224B2
An evaporator includes a housing having a first end longitudinally opposing a second end. The evaporator includes an inlet disposed on the housing and configured to receive a fluid. The evaporator also includes a tube bundle disposed in the housing and configured to evaporate the fluid to provide a vapor stream arranged to exit through an outlet on the housing. Additionally, the evaporator has a flow balancer provided between the tube bundle and the outlet on the housing, and the flow balancer is configured to balance refrigerant quality between the first end and the second end of the evaporator by controlling the vapor stream.
US12066217B2
A fuel-fired heating appliance comprises a fuel source, an air source, a chamber in which fuel and air mix, a burner downstream from the mixing chamber, an igniter proximate the burner, a heat exchanger, a blower and a flue pipe. An ambient air inlet may be defined by at least one of the outlet end of the blower and the flue pipe extending between the interior of the flue pipe and an area ambient to the flue pipe. A flow rate of combustion gas may be controlled to a level below a steady-state flow rate during appliance warm-up.
US12066214B2
An air curtain air cleaner and sanitation system that incorporates established active UVC light projection technology with threshold air delivery air curtains to provide conditioned airflow by outward UVC light beam projection into the return airflow in a structure while maintaining an air control barrier between openings in a structure.
US12066212B2
A heating, ventilation, and air conditioning (HVAC) system includes a hot water sub-system including a first heat exchanger and a condenser, a cold water sub-system including a second heat exchanger and an evaporator, and a refrigerant sub-system for transferring heat from the cold water sub-system to the hot water sub-system. The first and second heat exchangers transfer moisture and heat between a liquid desiccant and air. The refrigerant sub-system includes a compressor, the condenser, an expansion valve, the evaporator, and a refrigerant-air heat exchanger. The condenser transfers heat from compressed refrigerant to the hot water sub-system. The evaporator transfers heat from the cold water sub-system to uncompressed refrigerant. The refrigerant-air heat exchanger transfers heat from a portion of the compressed refrigerant to air in a first operating mode, and transfers heat from the air to a portion of the uncompressed refrigerant in a second operating mode.
US12066211B2
A dehumidifier includes a housing, a motor bracket provided in the housing; and a water pan. The housing includes a top cover provided with a mounting hole and a handle movably provided in the mounting hole in a vertical direction. A gap is formed between the handle and a circumferential wall surface of the mounting hole. The motor bracket includes a top wall below the gap, and the top wall is provided with an overflow hole. The water pan is provided below the overflow hole and configured to receive water flowing out via the overflow hole.
US12066199B2
Airstream sensor devices, systems, and related methods are disclosed. The sensor devices, systems, and methods are incorporated in heating, ventilation, and air conditioning (HVAC) ducts and plenum spaces for providing data used to monitor, manage, troubleshoot and/or control such systems. In an example embodiment, an airstream sensor device includes a housing and a plurality of sensors disposed on the housing. The plurality of sensors is configured to detect the temperature, airflow, and relative humidity of an airstream passing on, over, or through the device.
US12066196B2
An isolation mounting arm for use with an expansion tank has a passageway with a first end portion, a second end portion, and a medial portion located between the first end portion and the second end portion with the drain port located at the terminal end of the second end portion. A first tee is located in the first end portion with oppositely disposed first and second ports. A second tee is located in the second end portion, with oppositely disposed fourth and fifth ports. A first valve member is coupled to the first port, a second valve member is coupled to the second port, and a third valve member is located adjacent to the drain port. An expansion tank is coupled to either the fourth port or the fifth port with a plug coupled to the other port.
US12066187B2
A combustor includes a skeleton mesh structure having a plurality of structural elements configured to mesh together to form the skeleton mesh structure. The combustor also includes an inner liner and an outer liner mounted to the skeleton mesh structure to define a combustion chamber. The inner liner includes a plurality of inner planks mounted to an inner side of the inner liner and a plurality of outer planks mounted to an outer side of the inner liner. The outer liner includes a plurality of inner planks mounted to an inner side of the outer liner and a plurality of outer planks mounted to the outer side of the outer liner.
US12066182B2
Control instructions are transmitted to receivers by modulating light sources to generate light beams that are modulated with digital data streams for inducing control instructions in the light beams. Each light beam is applied to a pixel shaper element of a pixel shaper assembly to produce a light pixel, each light pixel carrying the control instructions of the light beam, each light pixel having a perimeter defined by the pixel shaper element. The pixel shaper assembly combines the light pixels into an image without significant overlap or voids between the light pixels emitted by the pixel shaper assembly. The light pixels are directed toward a projector lens for transmission toward the receivers. In a receiver, an optical receiver detects a light pixel. A controller decodes the control instructions received in the detected light pixel and uses the control instructions to control a function of the receiver.
US12066179B2
A sink system includes a basin, an apron, and a lighting system. The basin includes a bottom wall, a drain, a front wall, and a basin rim. The drain is disposed within the bottom wall. The front wall is contiguous with the bottom wall. The basin rim is contiguous with the front wall and separated from the bottom wall by the front wall. The apron is coupled to the basin rim. The apron includes an apron panel wall that has an interior surface and an exterior surface opposite the interior surface. The interior surface is in confronting relation with the front wall. The lighting system includes an apron lighting element and a controller. The apron lighting element is coupled to the apron. The apron lighting element is configured to provide illumination to an apron illumination target disposed on the exterior surface.
US12066178B2
A light system is provided. The light system includes a top housing, a bottom housing, and a side surface extending between the top housing and the bottom housing. An angled reflective surface is arranged between the top housing and the bottom housing and a lighting element is arranged between the top housing and the angled reflective surface. The lighting element is configured to direct light toward the bottom housing to reflect off of the angled reflective surface and out of the side surface.
US12066169B2
A wire-frame and fiberglass holiday motif has multiple pinpoint lights secured and arranged on a wire frame so as to convey a three-dimensional form of the holiday motif. In addition, one or more molded fiberglass portions have been secured to the wire frame and present an outer surface corresponding to an expressive feature of the holiday motif, such as a face. The thickness of the fiberglass has been selected such that it becomes translucent when illuminated by a subset of the pinpoint lights at night proximate to such fiberglass portions. The combination of planar surfaces defined by a pattern of pinpoint lights visible to the user, and one or more portions of molded fiberglass conveying expressive features of the holiday motif enhance viewing of the holiday motif both by day and by night.
US12066167B1
The present disclosure relates to a decorative lamp string, which relates to the technical field of lamp strings. The lamp holder and lampshade of each decorative lamp of the decorative lamp string are connected through connecting pieces, and detachable assembling between the lampshade and lamp holder is achieved, so that users can quickly change different lampshades according to different needs, thus improving the diversity and universality of the decorative lamp string.
US12066166B2
In an embodiment an optoelectronic lighting device includes a support and at least one pixel having three illuminating elements, wherein the illuminating elements of the pixel are arranged on an upper side of the support, each illuminating element having a center point, wherein the illuminating elements are arranged around a central point lying on the upper side of the support such that the center points of the illuminating elements lie on a circular path with a defined radius revolving around the central point, wherein each illuminating element includes a base body with a quadrangular base surface, a corner of the base body of each illuminating element lying at least approximately on a line which extends between the center point of the respective illuminating element and the central point, and/or wherein each illuminating element includes a base body with a square base surface, the illuminating elements being arranged on the upper side of the support such that mutually opposite side surfaces of the base body of adjacent illuminating elements extend non-parallel to one another.
US12066163B2
A lighting module for a vehicle includes a light source and a lens including an input dioptre oriented towards the light source and an output dioptre. The output dioptre includes at least one section through a horizontal plane having two convex portions separated by a concave portion, viewed from a side opposite the light source. The input dioptre includes a section through a vertical median plane having a lower convex portion and an upper concave portion, viewed from a side opposite the light source.
US12066158B2
Disclosed is a lamp for a vehicle. The lamp for a vehicle includes a first optical module that forms a first light distribution pattern, and including a first light source part and a first condensing lens part that condenses light emitted from the first light source part, a second optical module that forms a second light distribution pattern, and including a second light source part and a second condensing lens part that condenses light emitted from the second light source part, and a third optical module that forms a third light distribution pattern, and including a third light source part and a third condensing lens part that condenses light emitted from the third light source part, the first optical module, the second optical module, and the third optical module are arranged in a vertical direction.
