US12279917B2
A system, method, and apparatus for performing intraocular lens implantation using real-time surgical reference indicium are disclosed. An example method includes recording a patient specific pre-operative still image of an eye prior to cyclorotation of the eye when a patient lies down for surgery and generating at least one real-time multidimensional visualization of at least a portion of the eye for display. The method further includes using the patient specific pre-operative still image to at least produce at least one virtual surgical reference indicium including an ocular natural vertical axis of the eye and align the at least one virtual surgical reference indicium to the eye in conjunction with the real-time multidimensional visualization of at least a portion of the eye. The patient specific pre-operative still image is captured under a dilation condition selected from the group consisting of natural dilation, chemical dilation, and no dilation.
US12279909B2
Various methods and systems are provided for ultrasound imaging probe power management. In one embodiment, a power management system for an ultrasound imaging system includes a wireless charger and a mount configured to couple to a probe holder of the ultrasound imaging system. The probe may seat against the wireless charger for charging of a power source of the probe.
US12279900B2
System (SYS) for supporting X-ray imaging and related methods. The system (SYS) comprises a machine learning module (MLM), a logic (LG) configured to compute output correction information for adjusting an imaging geometry of an X-ray imaging apparatus to achieve a target imaging geometry. A modulator (MOD,L-MOD, H-MOD, S-MOD) is the system is configured to provide a user instruction for imaging geometry adjustment. The user instruction is modulated based on the output correction information. The machine learning module was previously trained on training data including a specific user's responses to previous instructions.
US12279898B2
A method includes obtaining an image having M sections and each section having N pixels. The method further includes deriving N sub-images from the image, wherein each sub-image has M sections and each section has N pixels. The i-th pixel of the j-th section of the i-th sub-image has a pixel value equal to a pixel value of the i-th pixel of the j-th section of the image and other pixels of the j-th section of the i-th sub-image are set to 0, where i traverses from 1 to N, and j traverses from 1 to M. The method further includes providing N projection patterns and calculating a projection for each sub-image by performing convolution of the respective sub-image with a corresponding one of the projection patterns, thereby obtaining N projected sub-images. The method further includes summing up the N projected sub-images, thereby obtaining a projection of the image.
US12279897B2
A computed tomography (CT) apparatus includes a gantry with a first rotation device and a second rotation device, a plurality of light sources configured to emit X-rays to a subject, a detector configured to detect X-rays passing through the subject, and one or more processors. The one or more processors may be configured to rotate the first rotation device in a first rotation direction by an angle of rotation determined based on a total number of the plurality of light sources, emit X-rays to the subject by using at least one of the plurality of light sources and detect X-rays passing through the subject during the rotation of the first rotation device in the first rotation direction, and rotate the first rotation device by the determined angle of rotation in a second rotation direction.
US12279895B2
Infusion devices and related medical devices, patient data management systems, and methods are provided for monitoring a physiological condition of a patient. An exemplary infusion device includes an actuation arrangement operable to deliver fluid to a user, a communications interface to receive measurement data indicative of a physiological condition of the user, a sensing arrangement to obtain contextual measurement data, and a control system coupled to the actuation arrangement, the communications interface and the sensing arrangement to determine a command for autonomously operating the actuation arrangement in a manner that is influenced by the measurement data and the contextual measurement data and autonomously operate the actuation arrangement in accordance with the command to deliver the fluid to the user.
US12279883B2
Methods for assessing a skin surface of a patient and associated systems and devices are described herein. A method configured in accordance with embodiments of the present technology can include, for example, receiving a three-dimensional data set representative of the patient's skin surface and determining a boundary of a feature of the patient's skin in the three-dimensional data set. The method can further include determining, with a processor, a three-dimensional surface area of the feature within the boundary. In some embodiments, the method can also include identifying a plurality of sub-regions within the boundary and identifying one or more tissue types in each sub-region.
US12279881B1
A method for assessing nerve health during a spinal decompression procedure includes: transmitting electrical stimuli to a nerve; detecting muscle responses evoked by the stimuli; determining multiple nerve function parameters based on the responses; calculating a nerve function index based on a weighted combination of the parameters; storing the index in memory; and displaying the index. The nerve function parameters include at least two of: minimum stimulation threshold, maximal stimulation threshold, and magnitude of maximal muscle response.
US12279877B2
Apparatus for monitoring activation in a heart comprises a probe 101, a plurality of electrodes 102 supported on the probe and extending over a detection area of the probe, the detection area being arranged to contact a detection region of the heart. Each of the electrodes 102 is arranged to detect electrical potential at a respective position in the heart during movement of a series of activation wave fronts across the detection region. A processor is arranged to analyse the detected electrical potentials to identify a propagation direction of at least one of the wave fronts, and to generate an output indicative of that direction.
US12279871B2
An electrical stimulation system for delivering spatially random electrical stimulation to a patient through an electrode array according to one embodiment includes an electrode array comprising a plurality of electrodes spaced apart from one another, a signal generator electrically coupled to the electrode array and configured to deliver an electrical stimulation signal, and a controller comprising a processor and a memory having a plurality of instructions stored thereon that, in response to execution by the processor, causes the controller to randomly select an electrical configuration from the plurality of electrodes of the electrode array by randomly selecting a first set of electrodes of the plurality of electrodes to function as electrical sources and a second set of electrodes of the plurality of electrodes to function as electrical sinks, and to instruct the signal generator to deliver the electrical stimulation signal to the patient via the randomly selected electrical configuration.
US12279862B2
A sensor (e.g., an optical sensor) that may be implanted within a living animal (e.g., a human) and may be used to measure an analyte (e.g., glucose or oxygen) in a medium (e.g., interstitial fluid, blood, or intraperitoneal fluid) within the animal. The sensor may include a sensor housing, an analyte indicator covering at least a portion of the sensor housing, and one or more compounds containing boronate or boronic acid moieties that reduce degradation of the analyte indicator.
US12279856B2
In some embodiments, the systems and methods of the disclosure can efficiently and accurately classify neurodegenerative disorder(s) and/or movement disorder(s) of a subject (e.g., a patient) using at least quantitative features associated with one or more regions of interest determined from one or more sets of image data of the subject's brain. The method may include processing one or more sets of MRI image data of the subject's brain to extract one or more quantitative features for one or more regions. The one or more quantitative features may include a first quantitative and a second quantitative feature. The method may further include classifying at least the one or more quantitative features into one or more classes associated with neurodegenerative dementia disorder, neurodegenerative movement disorder, non-neurodegenerative movement disorder and/or heathy control. The method may include generating a report including a classification of at least the one or more quantitative features.
US12279855B2
The invention provides various methods for imaging a subject's cardiovascular system. The imaging methods may be used to diagnose or prognose various cardiovascular diseases in the subject, without contrast agents or radioactive tracers.
US12279847B2
An apparatus includes a sterile channel pre-drape assembly comprising a plurality of legs radiating from a common center region. Each of the plurality of legs has one or more sterile interior surfaces and one or more outer surfaces. The sterile interior surfaces of a pair of the plurality of legs define a sterile channel that is bounded by the outer surfaces of the pair of the plurality of legs. The sterile channel pre-drape assembly also includes an attachment element affixed to the sterile channel pre-drape assembly. The attachment element is configured to attach the sterile channel pre-drape assembly to a portion of a surgical system.
US12279845B2
A surgical end effector assembly is disclosed. The surgical end effector assembly comprises a shaft, an end effector comprising a first jaw and a second jaw movable relative to the first jaw, and an articulation joint attaching the end effector to the shaft, wherein the articulation joint defines an articulation axis about which said end effector is articulatable relative to the shaft. The articulation joint comprises a first rotary drive member rotatable about the articulation axis and a second rotary drive member rotatable about the articulation axis, wherein the first rotary drive member and the second rotary drive member are rotatable in the same direction to articulate the end effector about the articulation axis. The surgical end effector assembly further comprises a jaw drive output cooperatively driven by the first rotary drive member and the second rotary drive member configured to clamp and unclamp tissue with the second jaw.
US12279842B2
A robotic surgical tool an elongate shaft, an end effector arranged at a distal end of the shaft and including opposing first and second jaws, and an articulable wrist interposing the end effector and the distal end of the shaft. The wrist includes a linkage mounted to the first and second jaws and defining a slot, a distal wedge positioned within a central portion of the wrist and providing a channel, and an alignment arm interposing the linkage and the distal wedge and providing an alignment head receivable within the slot and a projection receivable within the channel. The alignment head is translatable within the slot and the projection is translatable within the channel during operation of the end effector.
US12279840B2
A surgical instrument includes an end effector, a shaft assembly, a drive, and an activating mechanism. The end effector includes first and second jaws. At least one of the first and second jaws is pivotable relative to the other of the first and second jaws between open and closed positions. The shaft assembly extends proximally from the end effector. The drive is operatively connected to a portion of at least one of the end effector or the shaft assembly. The activating mechanism includes an actuation body operatively connected to the drive. The portion is configured to perform a first actuation profile in response to the actuation body moving along a first predetermined path or perform a second actuation profile in response to the actuation body moving along a second predetermined path. Selection of the first predetermined path is configured to prevent the actuation body from accessing the second predetermined path.
US12279839B2
A robotic surgical system can include an end effector coupled to a robotic arm. A reamer operable to ream bone can be coupled to the end effector (e.g., via a retainer). The reamer can include a primary driveshaft and a cutting head. The primary driveshaft can be rotatable about a first axis of rotation and the cutting head can be rotatable about a second axis of rotation, for example parallel to and offset from the first axis of rotation.
US12279838B2
An arm device includes a joint portion configured to be rotated to thereby change a position and/or a posture of a surgical tool, and an actuator configured to generate a driving force that rotates the joint portion, and to allow a rotation of the joint portion in accordance with an externally applied force. Moreover, the arm device is configured to estimate an external force applied to the surgical tool, to obtain a value of a driving force of the actuator based on a weight of the surgical tool and the external force, and to control the actuator based on a value of the driving force.
US12279828B2
A system and method and system for providing preoperative patient intraoral scanning for diagnosis and preparation of a treatment plan utilizing the proposed system in advance of the crown surgery and intraoperative patient intraoral scanning for system assessment and verification for the method of treatment. More specifically, the proposed invention proposes a method and system of patient intraoral scanning to identify the best predesigned crown for use for the patient and develop a plan for intraoral surface treatment for the identified predesigned crown and automated crown inventory management.
US12279818B2
The ophthalmologic microscope comprises a first component including a base and a stage, a second component including a pivotal arm and a microscope device, and a third component including a pivotal arm and a light source. The various components are mutually pivotal at a hinge. An electronically controlled brake and a position sensor are incorporated into the hinge. The brake controller of the microscope is adapted to interrupt a manual mutual displacement of the components in response to a signal from the position sensor in order to assist the user in properly aligning the components.
US12279816B2
Devices, systems, and methods that facilitate optical analysis, particularly for the diagnosis and treatment of refractive errors of the eye. An optical diagnostic method for an eye includes obtaining a sequence of aberration measurements of the eye, identifying an outlier aberration measurement of the sequence of aberration measurements, and excluding the outlier aberration measurement from the sequence of aberration measurements to produce a qualified sequence of aberration measurements. The sequence of aberrations measurements can be obtained by using a wavefront sensor. An optical correction for the eye can be formulated in response to the qualified sequence of aberration measurements.
US12279814B2
An end effector assembly for an optical surgical instrument includes a jaw member and a plurality of optical elements positioned within a cavity of the jaw member. The jaw member has a tissue contacting surface. The jaw member has a proximal portion that is configured to secure a fiber optic cable thereto such that a distal end of the fiber optical cable extends into the cavity. The plurality of optical elements are arranged in a staircase-like manner that rises towards the tissue contacting surface as the plurality of optical elements extends distally within the cavity. The plurality of optical elements is configured to direct a beam of light exiting the fiber optic cable towards the tissue contacting surface.
US12279812B2
A lithotripsy or other medical laser treatment system can include a lateral actuator to laterally displace a distal portion of a laser fiber, such as can be scanned or otherwise controlled to generate a spatial or spatiotemporal sub-targeting pattern without requiring laterally moving an endoscope carrying the laser fiber in a longitudinal passage such as a working channel. A targeted stone can be selectively weakened along the pattern, such as using lower energy pulses, before being fragmented, such as by a higher energy shock pulse.
US12279808B2
The invention provides systems and methods for therapeutically modulating nerves in or associated with a nasal region of a patient for the treatment of a rhinosinusitis condition. The system includes a device including a multi-segment end effector for delivering energy to one or more target sites within the nasal cavity of the patient. The multi-segment end effector includes a first segment and a separate second segment, wherein each of the first and second segments is transformable between a retracted configuration and an expanded deployed configuration, the first segment having a first geometry when in the deployed configuration to complement anatomy at a first location within the nasal cavity and a second segment having a second geometry when in the deployed configuration to complement anatomy at a second location within the nasal cavity.
US12279807B2
Methods and surgical devices for performing an anastomosis of a living tissue. More particularly the methods and devices relate to anastomosis of tissue performed through tissue fusion performed by delivering energy to the tissue.
US12279806B2
An end effector assembly for use with a forceps includes a pair of jaw members, a knife assembly, and one or more cam assemblies. One or more of the jaw members are moveable relative to the other about a pivot between open and closed positions. One or more of the jaw members include a knife channel. The pivot includes first and second sections defining a passage therebetween. The knife assembly includes a knife blade and an actuation shaft. The knife blade is disposed distally relative to the pivot. The actuation shaft is configured for slidable translation through the passage to allow selective advancement of the knife blade through the knife channel. The one or more cam assemblies are operably coupled to the one or more moveable jaw members and are actuatable to move the one or more jaw members between the open and closed positions for grasping tissue therebetween.
US12279805B2
Methods for detecting tubing in a pump assembly of a pump system are provided. For example, a method comprises connecting a power supply to each of a plurality of pump motors of the pump system. Each pump motor of the plurality of pump motors has a power supply cable configured to connect to the power supply and drives a pump head of a plurality of pump heads of the pump system. The method also comprises sensing a motor current from each of the power supply cables, determining whether tubing is loaded in each pump head, and, if tubing is not loaded in a pump head, then disconnecting from the power supply the power supply cable of the pump motor associated with the pump head in which tubing is not loaded. Systems for detecting the presence of tubing within a pump head of a plurality of pump heads also are provided.
US12279802B2
A method and system of providing therapy to a patient's uterus. The method can include the steps of inserting a uterine ablation device into the uterus, expanding a distal anchor, inflating a proximal balloon to pull the distal anchor proximally and seat the distal anchor against the internal os of the uterus, inflating a central balloon to seal the cervix, delivering vapor from the uterine ablation device into the uterus, and condensing the vapor on tissue within the uterus. The system can include a cervical collar adapted to place a distal portion of the device within the uterus when the cervical collar contacts an external os of the cervix.
US12279800B2
Apparatus, systems, and methods for treating PKD by providing access to a patient's renal pelvis of a kidney to treat renal nerves embedded in tissue surrounding the renal pelvis. Access to the renal pelvis may be via the urinary tract or via minimally invasive incisions through the abdomen and kidney tissue. Treatment is effected by exchanging energy, typically delivering heat or extracting heat through a wall of the renal pelvis, or by delivering active substances to ablate a thin layer of tissue lining at least a portion of the renal pelvis to disrupt renal nerves within the tissue lining of the renal pelvis.
US12279798B2
A method facilitates the treatment of the spine of a patient by providing simultaneous access through at least a first opening and a second opening formed in the patient. For example, the method can include the acts of positioning the patient on a surgical table, providing the first opening into a posterior portion of the patient, providing the second opening into a lateral portion of the patient, inserting a first device through the first opening into the patient to contact the spine in a first direction that is transverse to the coronal plane of the patient, and inserting a second device through the second opening into the patient to contact the spine in a second direction that is transverse to the sagittal plane of the patient, where the first and second openings are accessible simultaneously, and, when the first and second devises are inserted into the patient, the position of the patient is stationary with respect to a portion of the table.
US12279797B2
A flail chest stabilization device is provided that includes a pair of lateral bridges, a pair of main stabilization bars, a screw and slider-element connector assembly, and a slider introducer tool, where the slider introducer tool positions the slider-element, where the main stabilization bars are connected by the screw and slider connector assembly to the lateral bridges, where the stabilization bars are in a parallel configuration or crossed configuration.
US12279794B2
A surgical technique can involve inserting an instrument defining a sliding surface between a metatarsal and a laterally-adjacent metatarsal. The technique can include moving the metatarsal across the sliding surface of the instrument toward the cuneiform to close a space between the metatarsal and the opposed cuneiform.
US12279792B2
Trocar retractor apparatus and methods for use are described where an apparatus for positioning an instrument may generally include a substrate having a first surface and a second surface opposite to the first surface, an instrument positioning guide projecting from the first surface of the substrate, and one or more suction assemblies positioned along the second surface and in fluid communication with an interior of the substrate. The one or more suction assemblies may be attachable to a tissue region via a vacuum force applied through the one or more suction assemblies. The apparatus may also have the substrate configured to maintain a predetermined configuration when the vacuum force is applied.
US12279791B2
The present disclosure provides a method of performing an image guided carpal tunnel release procedure. The method includes directing fluid through a hypodermic needle toward a median nerve of a patient to move the median nerve away from a deep surface of a transverse carpal ligament (TCL) of the patient. The method further includes dissecting the TCL with the hypodermic needle by sliding a cutting edge associated with the hypodermic needle along the TCL.
US12279778B2
A bone cutting guide for preparing both donor and recipient bone, including one or more articular referencing platforms contoured to a bony surface to be prepared, fixation structure to secure the articular referencing platforms on an articular surface, cutting slots spaced apart from the articular referencing platforms at predetermined distances configured to allow the passage of a saw blade in such a way to remove a bone segment either from an allograft donor or from a graft recipient in such a way that both the removed donor and recipient grafts are of the same exact dimensions, whereby when the allograft is placed in the recipient site of the patient's joint, it completely restores the articular surface to the desired level with healthy articular cartilage from the donor.
US12279771B2
A power pack removably loadable into a compartment of an instrument. The power pack has a first motor and a first engagement member removably engageable with a firing mechanism to effect firing of fasteners and a second motor and second engagement member removably engageable with an articulation mechanism when the power pack is loaded into the compartment to effect movement of the articulation mechanism from a first position to a second position. A display screen indicates one or more of the following a) a specific direction and angle of the first and second jaws with respect to the longitudinal axis; b) a tissue force during firing of fasteners; c) a clamping force by the instrument jaws on tissue prior to firing; and/or d) change in clamping force over time. The display screen can alternatively be on the instrument.
US12279765B2
A method for resecting a lesion in a wall of an organ of a patient includes injecting a fluid into the wall of the organ at a location proximate to the lesion, creating a wound in the wall of the organ by cutting the lesion from the wall of the luminal organ, removing at least a portion of the fluid injected into the wall of the organ, and closing the wound using a suture thread. The portion of fluid may be removed prior to or after partially threading the suture thread into the wall of the organ.
US12279753B2
A disposable air/water valve for an endoscope, including a shaft having a passage from an opening to a vent. The shaft has grooves and ridges and a protrusion formed at the vent. Seals are set within some of the grooves. An inner ring, having a diaphragm, extends from an outer circumference of the inner ring to an internal circumference of an outer cap. Hinges extend vertically downward from the diaphragm and ribs are formed along the internal circumference of the outer cap. A button cap has an internal ring that securely attaches to the shaft. A resilient member is securely disposed between the button cap and the diaphragm. The outer cap, inner ring, and internal ring of the button cap define a central bore to accommodate the shaft therein.
US12279742B1
The present device relates to a Universal Dual-Cone Vacuum Hose Adapter suitable for wet or dry applications. This adapter includes a central body made of pliable silicone, ensuring durability and chemical resistance. It features two conical surfaces at opposite ends, each with a unique taper capable of accommodating vacuum hoses and pipes ranging from ¾″ to 2.5″ in diameter. The design includes smaller diameter cylinders at both ends of the central body for aligning with smaller diameter pipes, enhancing attachment stability. Additionally, a center hole runs through the adapter, providing a continuous passageway for fluid or air transfer between the hoses or pipes. This adapter is designed for secure sealing and ease of use, offering improved functionality in various vacuum applications.
US12279741B2
A cleaner head for a vacuum cleaning appliance includes a housing, a front agitator and a rear agitator. A suction chamber is located between the front agitator and the rear agitator. A baffle is located within the suction chamber between the agitators. During use of the cleaner head, debris becomes entrained within air drawn towards the suction chamber. Guide members mounted on the housing guide the entrained debris towards the suction chamber, whereas the baffle guides the air upwardly towards a central suction port of the suction chamber.
US12279740B2
Provided are a storage base and a vacuum cleaner assembly having the same. The storage base is configured to store a vacuum cleaner. The storage base includes a first component connecting portion configured to store a first component of the vacuum cleaner and a second component storage portion configured to store a second component of the vacuum cleaner. The first component connecting portion and the second component storing portion are staggered with each other in a circumferential direction of the storage base.
US12279736B2
A dishwasher includes a tub, a door, and a drying device disposed outside the tub. The drying device includes a condensing duct that faces an outer surface of the tub, that is in fluid communication with an inlet port defined at the tub, and that extends in a vertical direction and a first direction intersecting the vertical direction, and a fan configured to cause a flow of air in the condensing duct. The condensing duct includes an upstream portion in fluid communication with the inlet port, a downstream portion that is in fluid communication with the upstream portion and includes a bent portion disposed below the upstream portion, and a rib that is disposed inside the bent portion and extends across the bent portion, where the rib protrudes in a second direction that intersects the vertical direction and the first direction.
US12279734B2
A dish washer includes a cabinet, a tub positioned inside the cabinet, a sump provided in a lower portion of the tub, a case brake provided on a side wall of the tub connected to the sump, and a filter device positioned below the tub inside the cabinet, to selectively filter or unfilter water received from a water supply source, and to supply the filtered water or the unfiltered water to the case brake, the water passed through the case brake is collected in the sump, the case brake is located higher than the sump to prevent a backflow of the water collected in the sump to the case brake.
US12279721B1
A leak-proof tray for frozen food includes a first tray main body and a second tray main body. The first tray main body includes a first sleeving opening, and the first sleeving opening is configured for receiving an ice-cream cone. The second tray main body is connected to the first tray main body. The second tray main body is provided with a second sleeving opening. The second sleeving opening is configured for receiving an ice lolly stick. When a user consumes the ice-cream cone, the cone can be inserted into the first sleeving opening, so that the first tray main body can accommodate the melted liquid of the ice-cream cone. When the user consumes an ice lolly, the second tray main body can be fitted onto the first sleeving opening of the first tray main body, and the ice lolly stick can be inserted into the second sleeving opening.
US12279719B2
A food grinder includes a grip mechanism having a flip cover body pivotally connected to a handle body, a cylindrical cutter set detachably mounted in the handle body, and a driving mechanism mounted in the grip mechanism. The grip mechanism includes first and second switch units electrically connected in series between a driving unit and a power supply unit. When the first switch unit is manually actuated to turn on while the second switch unit is actuated to turn on by the flip cover body as the flip cover body pivots toward a closing position, the driving unit operates with electric power supplied from the power supply unit to drive rotation of a cylindrical cutter of the cylindrical cutter set disposed in the handle body, such that a food ingredient in an inlet in the handle body is cut and grinded by the rotating cylindrical cutter.
US12279704B2
A dispenser (1) for dispensing elongate beverage containers (2) having: a housing (3) with a cylindrical housing part (4), a rear-side insertion opening (12) for inserting beverage containers (2) and a front-side removal element (6), open at the top, for removing the frontmost beverage container (2); a guide channel (10) with a sliding surface (11) sloping downwards towards the front for conveying the upright beverage containers (2) from the rear-side receiving opening (12) into the front-side removal element (6); a chiller device (9) for chilling the beverage containers (2); a clamping device (34) for clamping in place an edge region (35) of an advertising film (33) on the exterior of the cylindrical housing part (4), the clamping device (34) having, on a long side of the cylindrical housing part (4), a clamping strip (36) comprising at least one ventilation opening (37) for dissipating heated air from the chiller device (9) to the surroundings.
US12279703B2
The present invention provides a bassinet with at least two left oscillating rods that can make the bed frame assembly swing relative to the connection assembly, and the two left oscillating rods are installed symmetrically with the vertical symmetrical surface of the fence frame, and at least two right oscillating rods are provided that can make the bed frame assembly swing relative to the connection assembly, and the two right oscillating rods are symmetrically installed with the vertical symmetrical surface of the fence frame, which can prevent the bed frame assembly from inclination and ensure the bed frame assembly is horizontally installed on the connection assembly, with the characteristics of stable connection, smooth swing, and high safety.
US12279702B1
A slipcover for a pillow includes a cover body. The slipcover body includes a first surface and a second surface. The cover body defines an open interior that is adapted to receive the pillow. The cover body has a medial region and two arms extending from the medial region to define an outer periphery and an inner periphery. The cover body further includes a bolster at the outer periphery extending along a majority of the medial region and protruding away from the first surface.
US12279700B2
The disclosed technology includes an internal support structure for providing structural stability to an inflated air mattress. The internal support structure can include a loop of material and attachment strips to attach the loop to the top and bottom panels. The internal support structure can also include attachment strips to attach the ends of the loop of material together to complete the loop. The air mattress can include a plurality of internal support structures.
US12279698B2
An air system for a bed can include a layer assembly having a head end, a foot end, and first and second sides, with a head portion near the head end, a foot portion near the foot end, and a middle portion between the head portion and the foot portion, the layer assembly. The layer assembly can have a spacer layer comprising spacer material configured to allow for air flow through the spacer material and a cover comprising a cover top layer and a cover bottom layer. The air system can have a distribution manifold that is substantially fan-shaped with a plurality of ribs defining channels and/or is positioned above the cover bottom layer and under the spacer layer. The air system can have first and second flaps with first and second retention features extending from the head and foot ends of the air layer.
US12279695B2
The enclosure mounting system is for hanging enclosures and includes a wall rail and a hanging rail. The enclosure mounting system can include an enclosure and a pair of rotary footings. The wall rail has a wave form pattern profile extending from a first end to a second end and is configured to mount to a surface. The hanging rail is configured to hang onto the mounted wall rail. The wall rail can include an at least one end segment that receives an end of a second wall rail. The at least one end segment receives a central segment of the second wall rail and the corresponding wave form pattern profile promotes self-aligning. The second wall rail is further aligned to the first wall rail by mounting the at least one end segment, with an end of the central segment of the second wall rail, to the surface.
US12279690B1
The present invention discloses an integrally electric and manual cleaning apparatus and a storage box. The cleaning apparatus includes a cleaning portion and a drive portion. The cleaning portion is mounted on the drive portion, and includes a sleeve tube, a connecting seat, an electric brush head, and a clamping mechanism. The clamping mechanism includes a trigger, a clamping assembly, and a linkage assembly. The trigger is mounted on the sleeve tube, the clamping assembly extends out of the connecting seat, and the linkage assembly is located between the trigger and the clamping assembly; and the brush head is mounted on the clamping assembly. The storage box includes a storage body and placement brackets.
US12279689B2
The brush cutter band has a pelvic pad, a main belt, a sub-belt, a plurality of sub-belt loops, and a suspender. The main belt is fastened to the pelvic area of a user via the pelvic pad. The sub-belt is fastened to the lower back of the user. The plurality of sub-belt loops is provided on the pelvic pad through which the sub-belt is threaded. The suspender is provided on the pelvic pad and suspendable of the brush cutter. The pelvic pad is suspended from the sub-belt by the plurality of sub-belt loops. The plurality of sub-belt loops includes corresponding sub-belt loops located above and corresponding to the suspender.
US12279684B1
A nail polisher with UV lamp, comprising: a shell; a nail polishing assembly; a motor; a UV lamp assembly; a PCB board; a power supply assembly; the shell is provided with an accommodation cavity, and both ends of the shell are respectively provided with a first through hole and a second through hole communicating with the accommodation cavity; the nail polishing assembly comprises a transmission mechanism installed in the accommodation cavity. With the connection and cooperation between the motor output end and the transmission mechanism, the motor can drive the transmission mechanism to rotate, and then drive the polishing head to rotate, thereby polishing the nails. As for the UV lamp assembly, it is disposed in the accommodation cavity and close to the second through hole for curing the nail polish. It can avoid damaging the back of the hand and only treat the nails, which improves safety.
US12279677B2
A tape includes, in a cross-sectional shape: a first and a second portion which are configured to be at least partially in opposition. The first portion includes: thick portions provided in corresponding one of a first and a third region, out of the first, a second, and the third region in a width direction of the tape; a first and a second thin portion provided at respective both end portions, in the width direction, of the second region positioned between the first and the third region; and at least one intermediate portion provided between the first and the second thin portion. The second portion includes: thick portions provided in corresponding one of the first and the third region and extending beyond end portions, in the width direction, of the second region; and at least one third thin portion provided in the second region and opposed to the intermediate portion.
US12279667B2
Disclosed herein are systems and methods for transforming footwear. A footwear system includes one or more portions configured in a first profile. The footwear system includes one or more sensors configured to generate a value based on a surface in contact with at least one of the one or more portions. The footwear system includes an actuator configured to change, responsive to determining that the value satisfies a profile configuration condition, a configuration of the one or more portions from the first profile to a second profile in accordance with the surface.
US12279665B2
A body part protector includes an inner layer defining an interior space that is configured to be occupied by a human body part, an outer layer connected to the inner layer and forming at least one chamber therebetween, and a plurality of separate dampers. A damper is at least partially disposed in the chamber. Each damper extends into the interior space along a respective longitudinal axis. Each damper has an outer end disposed at a fixed position relative to the outer layer and an inner end disposed longitudinally opposite the outer end in the interior space. The protector includes a plurality of separate engagement members corresponding to the plurality of dampers. Each engagement member is disposed at the inner end of the corresponding damper and is configured to engage the body part of the user. Each damper includes a plurality of compressible damper elements concentrically arranged about the longitudinal axis.
US12279660B2
A forearm and shin glider for motorcycle cornering including a deformable base with slits that allow secure and comfortable fit to the rider's arm or leg. An abrasion resistant casing is attached to the base. This casing holds a set of abrasion resistant balls made of high speed smooth abrasion resistant ceramic. The abrasion resistant balls are located by bearings, also manufactured of ceramic. This device allows the rider to make contact with the ground for support during tight cornering maneuvers with substantially reduced and minimized friction. The abrasion resistant balls move smoothly within the bearings and casing and roll when contacting the ground, creating minimal friction but also providing substantial rider support. The glider device includes air ducts for air flow to reduce friction related heat. The glider device is attached to the rider's clothing using Velcro or hook and loop attachment devices.
US12279650B2
An electronic device includes a hand held base assembly that includes circuitry including memory and firmware executed by a processor or microcontroller of the circuitry; and a cartridge assembly that includes memory that is read by the firmware of the handheld base assembly. The cartridge assembly and the handheld base assembly are configured to removably couple together to define the electronic device for producing an aerosol for inhalation by a person. An enclosed air passageway is defined by the cartridge assembly and by the handheld base assembly, which isolates the airflow from the electronics of the device. The enclosed air passageway extends between the opening of the mouthpiece for taking a breath and a diaphragm of the handheld base assembly, movement of the diaphragm changing the air pressure within an enclosed interior space having a pressure sensor for trigging the pressure sensor when a breath is taken.
US12279649B2
A concentrate vapor delivery system places a viscous concentrate at an optimal location for vaporization while simultaneously protecting the heating elements that enable vaporization from damage. Concentrate is positioned proximate to the heating source on a delivery apparatus whereby heat from the heating source liquefies the concentrate. Upon liquification the concentrate flows along the delivery device toward the heating source and into an environment of higher temperature, eventually vaporizing thereby releasing the desired vapor effect.
US12279631B2
The aspects presented herein provide methods and compositions for the reduction or suppression of marine protein hydrolysate malodor by employing rice extract and/or a solid acid, preferably selected from malic acid, tartaric acid and citric acid.
US12279624B2
A cutting apparatus cuts a string in a workpiece by bringing a cutter into contact with the workpiece while rotating the workpiece supported by a clamper. The workpiece supported by the clamper is restrained by a holding member from the opposite side from the cutter. The holding member is elastically supported by a support part.
US12279621B1
The present invention relates to natural or natural-like analogues of insect pyrokinin neuropeptide [Hy]-NADEDQQQSVDFTPRL-[NH2] (SEQ ID NO:2) having activity against insects, for example hemipteran, dipteran, lepidopteran, blattodean and/or coleopteran insects, such as aphids, moths and fruit flies, and their use as insect control agents (e.g. insecticides) and plant protection agents.
US12279620B2
An agricultural composition comprises living microorganisms encapsulated in polymer gel microbeads which are applied onto seeds. In another embodiment, an agricultural composition comprises living microorganisms encapsulated in polymer gel macroheads for planting with seeds in soil. In another embodiment, an agricultural composition comprises living microorganisms immobilized in a polymer gel matrix that is coated on a seed.
US12279606B2
Described herein is a deterrence system for deterring animals from a vicinity of an environment monitoring apparatus, the system includes: a detector system having at least one sensor configured to generate a presence signal indicative of the presence of an object within a predefined vicinity of the environment monitoring apparatus; a deterrence processing system; and a repulsion system, wherein the deterrence processing system is configured to: monitor the presence signal; determine, from the presence signal, the presence of an object within the predefined vicinity of the environment monitoring apparatus; and communicate a command for the repulsion system to perform a sequence of one or more repulsion events actions in response to determining that an object is present, and wherein the repulsion system is configured to: perform one or more repulsion events responsive to receipt of the command from the deterrence processing system.
US12279603B1
A weedless lure body having an hollow elliptical cone shape, has an oblique opening angled upward from an elliptical base along a first side wall of the weedless lure body. The body further includes a second side wall positioned around an opposing vertex to the first side wall. A shank of a hook is formed with grabbing barbs, which are embedded in the second side wall. The weedless lure body collapses upon itself in use for retrieval, with a fish on the hook. A casting lure includes a flexible tubing housing encapsulating a flexible braided wire. One end is attached to an interior side of an attachment end of the wire within the flexible tubing housing. A second end of the wire positioned below the first end is attached to a shank of a hook, the flexible tubing including an opening through which the barbed end of the hook extends.
US12279600B2
Disclosed herein transgene construct comprising (i) a first nucleotide sequence, wherein the activity of the protein encoded by said first nucleotide sequence causes death of germ cells in the presence of an exogenous induction agent and (ii) a second nucleotide sequence which targets said construct to avian germ cells, methods of using the same and a transgenic avian provided by such methods.
US12279596B2
An interchangeable dog harness that includes an upper frame, a lower frame, and an interchangeable cape, wherein the upper frame and lower frame are adjustable to accommodate various dog sizes, and the interchangeable cape is designed to be used in a variety of situations the dog may face.
US12279589B2
A soybean cultivar designated 19140413 is disclosed. The invention relates to the seeds of soybean cultivar 19140413, to the plants of soybean cultivar 19140413, to the plant parts of soybean cultivar 19140413, and to methods for producing progeny of soybean cultivar 19140413. The invention also relates to methods for producing a soybean plant containing in its genetic material one or more transgenes and to the transgenic soybean plants and plant parts produced by those methods. The invention also relates to soybean cultivars or breeding cultivars, and plant parts derived from soybean cultivar 19140413. The invention also relates to methods for producing other soybean cultivars, lines, or plant parts derived from soybean cultivar 19140413, and to the soybean plants, varieties, and their parts derived from use of those methods. The invention further relates to hybrid soybean seeds, plants, and plant parts produced by crossing cultivar 19140413 with another soybean cultivar.
US12279585B1
A novel maize variety designated X08V911 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X08V911 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X08V911 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X08V911, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X08V911 are provided. Methods for producing maize varieties derived from maize variety X08V911 and methods of using maize variety X08V911 are disclosed.
US12279580B1
A novel maize variety designated X08V879 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X08V879 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X08V879 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X08V879, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X08V879 are provided. Methods for producing maize varieties derived from maize variety X08V879 and methods of using maize variety X08V879 are disclosed.
US12279578B1
A novel maize variety designated X08V905 and seed, plants and plant parts thereof are produced by crossing inbred maize varieties. Methods for producing a maize plant by crossing hybrid maize variety X08V905 with another maize plant are disclosed. Methods for producing a maize plant containing in its genetic material one or more traits introgressed into X08V905 through backcrossing or genetic transformation, and to the maize seed, plant and plant part produced thereby are described. Maize variety X08V905, the seed, the plant produced from the seed, and variants, mutants, and minor modifications of maize variety X08V905 are provided. Methods for producing maize varieties derived from maize variety X08V905 and methods of using maize variety X08V905 are disclosed.
US12279567B2
There is presented an irrigation system for use in a vertical growth tower, the irrigation system comprising a watering head mounted on the lift mechanism of the vertical growth tower such that the lift mechanism is configured to transfer a growth tray from a stack of growth trays from a storage position to a management position and to move the watering head into position to water a growth tray within the vertical growth tower.
US12279565B2
A 360 degree rotatable tabletop for trimming plants or other plant care enables lateral access to all sides of a plant and incorporates removable tie-downs for spreading plant stems apart.
US12279560B2
Harvesting device (10) of an agricultural harvesting machine, having a mower (11) for mowing harvested crops, having a conditioning apparatus (14) with conditioning rolls (15, 16) arranged downstream of the mower (11) for conditioning the mown harvested crops, having a transverse conveying apparatus (18) arranged downstream of the conditioning apparatus (14) for conveying the conditioned harvested crops, having a guide element (20) in order to transfer the conditioned harvested crops from the conditioning apparatus (15) onto the transverse conveying apparatus (18), wherein the guide element (20) is configured to be deflectable such that the guide element (20) adopts a position as a function of a harvested crop mass flow to be transferred from the conditioning apparatus (15) onto the transverse conveying apparatus (18).
US12279559B2
A harvesting unit including a chassis intended to be moved along rows of plants to be harvested, and a shaker system including a shaker device including: a drum operable to detach a crop from the plants, the drum including a drum shaft mounted for rotation on the chassis about a vertical axis and shaker organs mounted to the drum shaft; a rotational driving mechanism for the drum including a driven body and a first driving device engaged with the driven body to steer its rotation about the vertical axis; an oscillatory driving mechanism for the drum about the vertical axis including comprising an eccentric module and a second driving device engaged with the eccentric module to steer its rotation, the eccentric module being connected to the drum shaft by a mechanical member arranged to transform the eccentric rotation of the eccentric module into an oscillation of the drum shaft.
US12279546B2
An agricultural trench depth sensing system having a trench implement adapted to be disposed in a soil trench opened in a soil surface. In one embodiment an ultrasonic sensor detects a distance to an upper surface of said trench implement or a target disposed thereon. In another embodiment, said trench implement includes one or more fingers which rotate with respect to said trench implement to detect the soil surface relative to said trench implement. In another embodiment, said trench implement includes side sensors for detecting the sidewall of the soil trench.
US12279542B2
A working machine includes a vehicle body to which a working device is connectable, a driving estimator to estimate whether the vehicle body is drivable along a road based on a road condition and a device condition, a controller to control a driving operation of the vehicle body based on an estimation result obtained by the driving estimator, and a communicator to transmit to an external device driving information regarding driving the vehicle body under control of the controller. The controller is configured or programmed to drive the vehicle body based on a command received from the external device after transmission of the driving information from the communicator to the external device.
US12284924B2
According to various embodiments, there may be provided an interposer. The interposer including: a substrate; a dielectric layer disposed on the substrate; a via disposed entirely within the dielectric layer; a resistive film layer disposed to line the via; a metal interconnect disposed in the resistive layer lined via; and a plurality of metal lines disposed in the dielectric layer, the plurality of metal lines including a first metal line connected to the metal interconnect, a second metal line connected to the resistive film layer at a first point, and a third metal line connected to the resistive film layer at a second point.
US12284921B2
A superconductor device includes a low-dimensional material with a critical temperature higher than a critical temperature corresponding to a bulk form of the low-dimensional material. The low-dimensional material can include shape and structural modifications of a low-dimensional material. The superconductor device can include various conformational arrangements of the low-dimensional material such as nanoribbons, nanotubes, or helices. The superconductor device can include functional groups, such as hydrogen, attached to the low-dimensional material. The superconductor device can include metallic clusters located in proximity to the low-dimensional material. The superconductor device can include a low-dimensional material which is a monolayer, bilayer or multilayer.
US12284919B2
Disclosed according to various embodiments is a thermoelectric material for colossal Seebeck coefficients comprising an Mg-poor Mg2Sn crystal and Secondary Sn phase.
US12284915B2
An organic electroluminescence device including a cathode, an anode, and an emitting layer disposed between the cathode and the anode, wherein the emitting layer includes a compound represented by the following formula (1) and one or more compounds selected from the group consisting of compounds represented by each of formulas (11), (21), (31), (41), (51), (61), (71) and (81). In the formula (1), at least one of R1 to R8 is a deuterium atom.
US12284914B2
Disclosed herein are a compound represented by Chemical Formula A or Chemical Formula B and an organic light-emitting diode comprising the same.
US12284906B2
The invention describes the use of polyphenols and polyamino derivatives adjacent to absorber layers on the basis of small molecules in organic optoelectronic components.
US12284902B2
A display substrate (910), including a flexible substrate body, a thickness adjustment layer (71), and a micro-lens layer (72). The flexible substrate body includes: a plurality of island-shaped display regions (100) spaced apart from each other, a hollow region (300) disposed between adjacent island-shaped display regions (100), and a connection region (200) for connecting the adjacent island-shaped display regions (100). The thickness adjustment layer (71) is disposed on light exit sides of the plurality of island-shaped display regions (100) of the flexible substrate body. The micro-lens layer (72) is disposed on the side of the thickness adjustment layer (71) away from the flexible substrate body.
US12284901B2
A display apparatus includes: a first pixel electrode and a second pixel electrode spaced apart from each other on a substrate; a pixel definition layer including an opening exposing a central portion of each of the first pixel electrode and the second pixel electrode; an intermediate layer on the first pixel electrode, the second pixel electrode, and the pixel definition layer and including a through hole exposing at least a portion of an upper surface of the pixel definition layer between the first pixel electrode and the second pixel electrode; an opposite electrode on the intermediate layer to face the first pixel electrode and the second pixel electrode; and an inorganic encapsulation layer over the opposite electrode.
US12284900B2
A packaging method of a display panel, the packaging method including: defining, on a cover plate, at least one adhesive coating region that each is to cover a respective target specially-shaped pattern and have a regular shape; forming a packaging adhesive in the at least one adhesive coating region; bonding the cover plate formed with the packaging adhesive with a substrate formed with at least one target specially-shaped pattern, so that a display region of each target specially-shaped pattern is located within a respective adhesive coating region; and cutting the substrate and the cover plate that have been bonded according to the target specially-shaped pattern to obtain the display panel.
US12284898B2
A touch display device comprises a substrate; planarization film disposed over the substrate; an anode electrode and a touch metal disposed on the planarization film; a bank disposed over the planarization film on which the anode electrode and the touch metal are disposed, and the bank including a first cavity exposing the anode electrode and a second cavity exposing the touch metal; an organic light emitting layer disposed in the first cavity and disposed over the anode electrode; and a cathode electrode disposed over the organic light emitting layer and the bank, wherein the cathode electrode includes a first cathode electrode and a second cathode electrode, which are separated from each other, and a part of the first cathode electrode is disposed in the second cavity and connected to the touch metal in the second cavity.
US12284893B2
A display device includes a substrate including a display area and a non-display area, a first wiring at the non-display area, a second wiring on a layer that is different from the first wiring at the non-display area, an inorganic insulating layer on the first wiring and the second wiring, a pad on the inorganic insulating layer, and connected to a first end of the first wiring, a contact bridge on the inorganic insulating layer, and connecting the second wiring to a second end of the first wiring, an electrostatic electrode on the inorganic insulating layer between the pad and the contact bridge, a first organic insulating layer covering the contact bridge and the electrostatic electrode, and exposing the pad, a first upper wiring on the first organic insulating layer, and overlapping the contact bridge and the electrostatic electrode, and a second organic insulating layer on the first upper wiring.
US12284888B2
Provided are a display panel and a display device comprising the same. The display panel includes a substrate including a planar portion, a first edge portion extending from one side of the planar portion, a second edge portion extending from the other side of the planar portion, a first side surface portion extending from one side of the first edge portion, and a first corner portion disposed between the first edge portion and the second edge portion; first data lines disposed in a display area of the planar portion; second data lines disposed in a display area of the first side surface portion; first fan-out lines disposed in a non-display area of the planar portion and connected to the first data lines; second fan-out lines disposed in the first corner portion and connected to the second data lines; and an encapsulation film covering the first data lines, the second data lines, and the first fan-out lines.
US12284887B2
A display device includes a pixel including a primary inductor and a secondary inductor that are inductively coupled to each other, a pixel circuit electrically connected to the primary inductor, and configured to control a current flowing through the primary inductor by using at least one transistor, and a light emitting unit electrically connected to the secondary inductor, and including at least one light emitting element.
US12284884B1
A display panel and a display device are provided. The display panel has a display region and a non-display region. The display panel includes: a substrate; a driving array layer including first pixel circuits in the non-display region and second pixel circuits in the display region; a light-emitting device layer including first light-emitting devices in the non-display region and second light-emitting devices in the display region; and a photosensitive device assembly including first photosensitive devices and second photosensitive devices in the driving array layer. The first light-emitting devices are electrically connected with the first pixel circuits and the second light-emitting devices are electrically connected with the second pixel circuits. An orthographic projection of one first photosensitive device to the substrate at least partially overlaps an orthographic projection of one corresponding first light-emitting device to the substrate, and the second photosensitive devices are arranged in the display region.
US12284872B2
Provided are a display panel and a preparation method thereof, and a display device. The display panel includes a base substrate; a first transistor, a second transistor, a third transistor; and a pixel circuit supplying a drive current to a display element, and a driver circuit supplying a drive signal to the pixel circuit; where the driver circuit includes the first transistor, and the pixel circuit includes the second transistor and the third transistor; and the subthreshold swing of the first transistor is SS1, and the subthreshold swing of the second transistor is SS2, where SS1
US12284868B2
A display device includes an organic light emitting diode emitting light, an antireflection layer disposed on the organic light emitting diode and preventing reflection of external light incident from an outside, and a thin film encapsulation layer disposed on the antireflection layer.
US12284867B2
Provided are a display panel, a preparation method of a display panel, and a display device. The display panel includes a display function layer, an anti-reflective function layer and a base material layer therebetween. The display function layer includes multiple light-emitting elements and a pixel definition structure surrounding the light-emitting elements. The anti-reflective function layer is disposed on a light emitting side of the display function layer and includes a first refractive index pattern, and the first refractive index pattern overlaps the pixel definition structure. The base material layer includes a light uniformizing structure, the light uniformizing structure includes a first inclined sidewall, and in a light emitting direction of the light-emitting elements, the first inclined sidewall is inclined towards a direction away from a light-emitting element adjacent to the first inclined sidewall, and the first refractive index pattern covers the first inclined sidewall.
US12284864B2
A light emitting display apparatus may include a display portion including a plurality of pixel areas disposed on a substrate, a circuit layer including a plurality of pixel driving lines disposed in the plurality of pixel areas, a light emitting device layer including a light emitting layer disposed on the circuit layer in the plurality of pixel areas, an encapsulation layer disposed on the light emitting device layer, and a routing portion surrounding a front periphery portion and an outer surface of the substrate and including a plurality of routing lines which pass through the encapsulation layer disposed at the front periphery portion of the substrate to be connected to the plurality of pixel driving lines.
US12284863B2
A display module includes: a display panel, which has a fingerprint identification region; a first protective layer disposed on a back surface of the display panel, the back surface being a surface of the display panel opposite to a display surface of the display panel, and the first protective layer being provided therein with a first opening for exposing the fingerprint identification region; and a metal protective layer disposed on a surface of the first protective layer away from the display panel, the metal protective layer being provided therein with a second opening, the second opening exposing the first opening, and an orthographic projection of an edge of the second opening on the display panel being located outside an orthographic projection of an edge of the first opening on the display panel.
US12284861B2
An electroluminescent element including an anode, a cathode, and a light-emitting layer provided between the anode and the cathode, in which the electroluminescent element further includes an electron transport layer [[(33) including n-type semiconductor particles and a first insulating polymer, and a hole transport layer including p-type semiconductor particles, the electron transport layer is provided between the cathode and the light-emitting layer, the hole transport layer is provided between the anode and the light-emitting layer, and a volume proportion of the n-type semiconductor particles in the electron transport layer is smaller than a volume proportion of the p-type semiconductor particles in the hole transport layer.
US12284851B2
A display panel includes a display module and a lens layer. The display module has a display region and includes a plurality of pixel units disposed in the display region and distributed in an array, each pixel unit is configured to emit light. The lens layer is disposed on a display side of the display module. Light emitted by the plurality pixel units passes through the lens layer to form a display image, and the display image includes a plurality of pixels distributed in an array. The number of pixel units included in a row of pixel units in a first direction is less than the number of pixels included in a row of pixels in the first direction. A first pixel distance is smaller than a first pixel unit distance.
US12284846B2
A semiconductor diode structure has one or more light-emitting active layers and a redirection layer on the back surface that includes one or more of an array of nano-antennae, a partial photonic bandgap structure, a photonic crystal, or an array of meta-atoms or meta-molecules, and exhibits non-specular internal reflective redirection of output light incident thereon within the diode structure. One or both of the front or back surfaces exhibit position-dependent redirection, reflection, or transmission of the output light, including one or both of (i) position-dependent internal reflective redirection of output light incident on the back-surface or (ii) position-dependent internal reflective redirection, or position-dependent transmissive redirection, of output light incident on a front-surface layer or coating. Position dependence of luminance of output light exiting the diode structure can differ from position dependence of emission from the active layer. With uniform emission across the active layer, output light can exhibit position-dependent luminance.
US12284843B2
A semiconductor light emitting device package includes: a substrate; a first semiconductor layer including first regions including a first-type semiconductor material and having a first height, and a second region disposed between the first regions and having a second height lower than the first height; an active layer including disposed in the first regions, and emitting light of a predetermined wavelength band; a second semiconductor layer disposed on the active layer and formed of a second-type semiconductor material; a third semiconductor layer disposed on the second semiconductor layer, and formed of a second-type semiconductor material different from the second-type semiconductor material of the second semiconductor layer; a transparent electrode layer including disposed on the third semiconductor layer; and a reflective electrode layer electrically connected to the transparent electrode layer, respectively, and including portions overlapping the active layer in a vertical direction and a horizontal direction, respectively.
US12284837B2
A backside illuminated image sensor, including a semiconductor layer, a first gate structure, and a light sensing device, is provided. The semiconductor layer has a first surface and a second surface opposite to each other. The first gate structure is disposed on the second surface. The light sensing device is located in the semiconductor layer. The light sensing device extends from the first surface to the second surface.
US12284836B2
An image sensor includes a photodiode array having a plurality of photodiodes, a grid disposed over the photodiode array, and a plurality of optical components disposed over the grid and corresponding to the plurality of apertures, respectively. The grid defines a plurality of apertures corresponding to the plurality of photodiodes, respectively. The optical components includes a first optical component above a first photodiode of the plurality of photodiodes, the first optical component includes at least one lens and provides at least one focus on the first photodiode, in which the focus of the lens of the first optical component misaligns a center of the first photodiode, in a plan view.
US12284832B2
A display panel and a display device. The display panel includes sub-pixels, a driving circuit for driving at least a part of the sub-pixels, and a signal line connecting the sub-pixel and the driving circuit, the driving circuit is located on a side of the sub-pixel in a first direction, the signal line includes an extension segment extending along the first direction, a plurality of extension segments of a plurality of signal lines are arranged side by side along a second direction, and the first direction intersects the second direction. The display panel includes a plurality of region segments arranged side by side along the second direction, the plurality of region segments include at least two adjacent first region segment and second region segment.
US12284830B2
A display panel includes a base substrate, a first transistor and a second transistor. The first transistor and the second transistor are formed on the base substrate. The first transistor includes a first active layer, a first gate electrode, a first source electrode, and a first drain electrode. The first active layer includes silicon. The second transistor includes a second active layer, a second gate electrode, a second source electrode, and a second drain electrode. The second active layer includes an oxide semiconductor. A length of a channel region of the first transistor is L1. Along a direction perpendicular to the base substrate, a distance between the first gate electrode and the first active layer is D1. The first transistor further includes a third gate electrode. Along the direction perpendicular to the base substrate, a distance between the third gate electrode and the first active layer is D3, and D1
US12284826B2
Embodiments of the disclosure are in the field of advanced integrated circuit structure fabrication and, in particular, 10 nanometer node and smaller integrated circuit structure fabrication and the resulting structures. In an example, an integrated circuit structure includes a first isolation structure over a first end of a fin. A gate structure is over the fin and is spaced apart from the first isolation structure along the direction. A second isolation structure is over a second end of the fin, the second end opposite the first end. The second isolation structure is spaced apart from the gate structure. The first isolation structure and the second isolation structure both comprise a first dielectric material laterally surrounding a recessed second dielectric material distinct from the first dielectric material. The recessed second dielectric material laterally surrounds at least a portion of a third dielectric material different from the first and second dielectric materials.
US12284825B2
The semiconductor device includes: a semiconductor substrate; a first transistor disposed above the semiconductor substrate and including a first source electrode, a first gate region, and a first drain electrode; and a second transistor disposed above the semiconductor substrate and including a second source electrode, a second gate region, and a second drain electrode. The first source electrode, the second gate region, and the second source electrode are substantially at an identical potential. The first drain electrode and the second drain electrode are substantially at an identical potential.
US12284821B2
A semiconductor device includes an active region extending on a substrate in a first direction, a gate structure including a gate electrode extending on the substrate in a second direction and traversing the active region, a spacer structure extending on opposing sidewalls of the gate electrode in the second direction, and a capping layer on the gate electrode and the spacer structure, a source/drain region on the active region adjacent the gate structure, and a first contact plug connected to the source/drain region and a second contact plug connected to the gate structure. The capping layer includes a lower capping layer and an upper capping layer on the lower capping layer, and the second contact plug penetrates through the capping layer, is connected to the gate electrode and includes a convex sidewall penetrating into the upper capping layer.
US12284804B2
The present disclosure provides a memory device, a semiconductor device, and a method of operating a memory device. A memory device includes a memory cell, a bit line, a word line, a select transistor, a fuse element, and a heater. The bit line is connected to the memory cell. The word line is connected to the memory cell. The select transistor is disposed in the memory cell. A gate of the select transistor is connected to the word line. The fuse element is disposed in the memory cell. The fuse element is connected to the bit line and the select transistor. The heater is configured to heat the fuse element.
US12284802B2
The present disclosure relates to a method for manufacturing a semiconductor structure, the method includes: a substrate is provided; a bit line array is formed on an upper surface of the substrate, the bit line array includes several bit lines arranged at intervals, the bit lines are connected through at least one support pattern, and the at least one support pattern penetrates through the bit line array along an arrangement direction of the bit lines; a bit line side wall is formed on side walls of each of the bit lines; a part of the at least one support pattern is removed so as to expose at least one sacrificial layer; and the at least one sacrificial layer is removed, so as to form at least one air gap between the first side wall dielectric layers and the second side wall dielectric layers.
US12284799B2
The disclosure relates to the technical field of semiconductors, and to a memory, a semiconductor structure and a method for same. The method includes: providing a substrate, the substrate including a plurality of conductive contact plugs in array distribution and insulation layers separating the conductive contact plugs; and forming a plurality of capacitive layers stacked and distributed in a direction perpendicular to the substrate on a surface of the substrate, each of the capacitive layers including a plurality of capacitances distributed at intervals, and the capacitances being respectively connected to different conductive contact plugs. According to the method, the storage capacity of capacitances can be increased, and product yield can be enhanced.
US12284789B2
A highly integrated mobile energy storage system is provided, which includes a container and battery racks. The battery racks are arranged in two rows along a length direction of the container, and the two rows of the battery racks are arranged back to back. For each of the two rows of battery racks, a maintenance door is arranged at a wall of the container close to the row of battery racks. In a case that a battery rack needs to be maintained, it is just required to open the maintenance door to maintain the battery rack. Since the two rows of battery racks are arranged back to back, no maintenance passage is required, thereby reducing a floor space along a width direction of the container, thus reducing the floor space of the system.
US12284788B2
An apparatus including a heat sink having two or more sections of parallel fins that define colinear channels is disclosed herein. The colinear channels are configured to direct flow of air or coolant across the heat sink and have wider channel widths closer to an inlet for the air or coolant and narrower widths closer to an outlet for the air or coolant.
US12284784B2
A hot-swappable pump unit (HSPU) and a coolant distribution unit (CDU) using the same are disclosed. The HSPU is connected to a loop inlet element, a loop outlet element and a fixed component of CDU along a matching direction. The HSPU includes a housing, a pump, a pump inlet element, a pump outlet element and a fastening component. The pump inlet element is in communication with the pump by passing through a first lateral wall of the housing. The pump outlet element is in communication with the pump by passing through the first lateral wall. The fastening component is arranged on the housing and configured to engage with the fixed component, to drive the hosing to move along the matching direction. Whereby, the pump inlet element and the loop outlet element are matched and connected, and the pump outlet element and the loop inlet element are matched and connected.
US12284777B2
An electronic device is provided. The electronic device includes a bracket, a supporting member, a fastener and a processor module. The bracket includes a slot. In a fixed state, the fastener is adapted to affix the supporting member in the slot. In an adjustment state, the supporting member is adapted to be slid relative to the slot. The supporting member is connected to the processor module to restrict the processor module.
US12284773B2
The present disclosure provides a strip-like screen display device, including: a strip-like display module including a display side and a non-display side arranged opposite to each other; and a strip-like shell, the strip-like shell being of a strip-like profile structure with an internal hollow cavity, at least one end of the strip-like shell being an opening end, the strip-like shell including a front side plate and a rear side plate arranged opposite to each other, the front side plate being provided with a display side opening, the strip-like display module being accommodated in the cavity of the strip-like shell and being inserted into or withdrawn out of the strip-like shell through the opening end, and a display side of the strip-like display module facing the display side opening.
US12284760B2
An electronic device includes a first circuit board, a second circuit board, and an interposer circuit board. The interposer circuit board defines a walled interface mechanically attaching the first circuit board to the second circuit board. One or more electronic circuit components are positioned within the walled interface and are mechanically attached to one of the first circuit board or the second circuit board. An electronic circuit interface component is mechanically attached to the first circuit board outside the walled interface. The electronic circuit interface component is electronically coupled to the one or more electronic circuit components.
US12284747B2
Disclosed are a hollow cathode discharge assistant transformer coupled plasma source and an operation method of the same. A reaction chamber with an annular channel is provided, and a ferrite transformer with a first ferrite magnetic core wound with a first coil and a second ferrite magnetic core wound with a second coil and a drive power source is provided. The drive power source applies an AC power supply with a first voltage to the first coil to generate an alternating magnetic field. The second coil generates a second voltage by inducing the alternating magnetic field to excite a working gas in the annular channel into a plasma through a hollow cathode discharge mechanism. The annular channel induces the alternating magnetic field through a transformer coupled plasma mechanism to generate an induced electric field to excite the plasma to form an electric current in the annular channel.
US12284724B2
Embodiments of this application provide a communication method and apparatus. The apparatus includes a receiving module and a sending module. When the receiving module receives a user equipment UE capability query message sent by a network device, the sending module sends a first UE capability message (including a first UE capability specification) to the network device, and when determining that a network exception occurs, sends a second UE capability message (including a second UE capability specification that is lower than the first UE capability specification) to the network device. This helps implement mutual compatibility between the terminal device and the network device, thereby ensuring that a communication link can be quickly established between the terminal device and the network device. In this way, a user can normally use the terminal device, and the terminal device can keep using a high-standard network as much as possible, thereby improving user experience.
US12284719B2
Apparatuses, systems, and methods for revocation and/or modification of user consent in Edge Computing (MEC). A user equipment device (UE) may determine that user consent needs to be updated. The user consent may be associated with MEC. Additionally, the UE may transmit, via an application layer of the UE, a user consent modification request to an edge application server of a network, e.g., of an edge data network. The user consent modification request may be carried in application data traffic. The user consent modification request may be indicated via an Nnef_ParameterProvision_Update service operation. The user consent modification request is indicated via an Nnef_ParameterProvision_Update service operation.
US12284715B2
Aspects of the present disclosure include methods, apparatuses, and computer readable media for determining a connected mode discontinuous reception (C-DRX) short cycle value, transmitting a C-DRX short cycle request to a base station, the C-DRX short cycle request including the C-DRX short cycle value, receiving a first confirmation indicating the base station accepting the C-DRX short cycle value associated with the C-DRX short cycle request, determining an averaging window value based on the C-DRX short cycle value, transmitting an averaging window request to the base station, the averaging window request including the averaging window value, receiving a second confirmation indicating the base station accepting the averaging window value associated with the averaging window request, and communicating with the base station based on the C-DRX short cycle value and the averaging window value.
US12284705B2
Embodiments of this application relates to a multi-link communication setup method and a related apparatus. The method includes: a non-AP MLD sends an association request frame on a first link, to request multi-link setup. An AP MLD returns an association response frame on the first link, to notify whether multi-link setup succeeds. The AP MLD sets a second status code field of a multi-link element of the association response frame to a newly defined value, to indicate that a cause why a link is not accepted is that the first link is not accepted. This application is applied to a WLAN system that supports a next generation Wi-Fi protocol of 802.11ax, for example, 802.11be, Wi-Fi 7, or EHT, and other 802.11 series protocols; and for another example, a next generation protocol of 802.11be: Wi-Fi 8.
US12284704B2
Embodiments include methods by a user equipment (UE) configured for dual connectivity with a master node providing a master cell group that includes a primary serving cell (PCell) and with a secondary node providing a secondary cell group that includes a primary secondary cell (PSCell). Such methods include detecting a radio link problem associated with a first serving cell, wherein first serving cell is the PCell or the PSCell. Such methods include, in response to detecting the radio link problem, for each of the UE's split radio bearers that has a primary path set to a first cell group that includes the first serving cell, performing a recovery procedure such that all uplink data transmission for the split radio bearer occurs only via a secondary path that does not include the first serving cell. Embodiments also include complementary methods performed by network nodes, as well as UEs and network nodes.
US12284703B2
This application describes methods and apparatus to manage data transport across multiple radio links for 5G-capable wireless devices. Under certain criteria, including performance of at least one radio link, a mobility state of a 5G-capable wireless device, and data transport requirements for a latency sensitive application session, the 5G-capable wireless device sends buffer status report (BSR) requests for one or more both of the radio links to prioritize and transition uplink (UL) data between radio links before a measurement reporting threshold is met. In some embodiments, the 5G-capable wireless device proactively sends BSR requests for radio resources before the UL data is generated by the latency sensitive application session. In some embodiments, the 5G-capable wireless device duplicates UL data for the latency sensitive application session across multiple radio links.
US12284694B2
A communication system is disclosed in which a communication device forms part of a communication system in which network slicing is supported and in which at least one tenant is able to communicate using at least one slice type associated with that tenant. The communication device receives network slicing related information transmitted by a base station. The network slicing related information may comprise information identifying support for a tenant whose communication is supported via the base station, or a network slice type of a tenant that is supported by the base station. The network slicing related information may comprise information comprising at least one communication parameter that is associated with a specific tenant or a specific slice type of a specific tenant. The communication device uses a slice having a slice type of a tenant with which the communication device is associated, based on the network slicing related information.
US12284690B2
Some techniques and apparatuses described herein provide an indication of a result of decoding a two-step random access channel (RACH) message and an action to be performed by a user equipment (UE). For example, some techniques and apparatuses described herein may provide the indication using a UE contention resolution identity-based approach, wherein the contention resolution identity of the UE may be provided in a random access response. Some techniques and apparatuses described herein may use a fallback indicator that indicates the result of decoding and/or the action to be performed. Some techniques and apparatuses described herein may use a random access response (RAR) subheader that selectively omits a random access preamble identifier based at least in part on the result of decoding and/or the action to be performed.
US12284687B2
Provided by the present invention is a wireless communication method, a terminal device, and a network device, wherein a terminal device receives first scheduling information sent by a network device, the first scheduling information being used for scheduling transmission of a first uplink channel by the terminal device by means of a first uplink bandwidth part BWP, the first uplink BWP comprising one or multiple resource block RB sets, and the first uplink BWP corresponding to a physical random access channel PRACH resource configuration; the terminal device determines transmission of the first uplink channel by means of a first frequency domain resource in a first RB set according to at least one among the first scheduling information, an initial uplink BWP, and a first PRACH resource in the PRACH resource configuration.
US12284686B2
A random access apparatus, applicable to a terminal equipment, includes first processor circuitry, wherein the first processor circuitry is configured to determine a random access type according to configuration information of a bandwidth part (BWP) for random access selected by the terminal equipment and downlink reference signal received power measured by the terminal equipment, perform selection of random access resources, and transmit an initial message of random access on the random access resources.
US12284683B2
A method for adaptively optimizing a random access response (RAR) message by a radio access network (RAN) node includes: determining a first number of connection attempts over a first time duration that are received from one or more user equipment (UE); determining a success rate for the first number of connection attempts; updating one or more parameters to adjust a code rate used for generating communication messages to the one or more UEs, from a first code rate to a second code rate, based at least in part on the success rate; generating the RAR message using the second code rate, in response to receiving an initial access connection request message from a first UE among the one or more UEs; sending the RAR message based at least in part on the second code rate to the first UE.
US12284680B2
Aspects herein relate to wireless devices, circuits, and methods for determining a PRACH resource mapping comprising a starting symbol position within a reference slot, wherein the starting symbol position is determined based, at least in part, on a subcarrier spacing configuration of PRACH resources of a wireless network that a wireless device is operating on; and using the radio to transmit a RACH preamble and an associated RA-RNTI via the determined PRACH resource mapping. Further aspects herein relate to devices, circuits, and methods for using a modified RA-RNTI for transmission or reception of data over a wireless network, wherein the wireless network has a subcarrier spacing configuration of PRACH resources, wherein a size of the subcarrier spacing configuration of the PRACH resources causes out-of-range RA-RNTI values to be calculated using a legacy RA-RNTI equation in an unmodified form, wherein the range of permissible RA-RNTI values is from 0 to 216−1.
US12284664B2
Methods, systems, and devices for wireless communications are described. In some systems, a user equipment (UE) may receive a sounding reference signal (SRS) resource configuration indicating one or more resources over which the UE may transmit one or more SRSs to one or more transmission and reception points (TRPs) within a multi-TRP communications system applying a multi-TRP communication scheme. The SRS resource configuration may configure the one or more resources based on a type of multi-TRP communication scheme being applied by multiple TRPs within the multi-TRP communications system and the UE may support SRS-based channel state information (CSI) acquisition within the multi-TRP communication scheme based on transmitting one or more SRSs over the configured resources. The UE may also receive configurations indicating spatial relations between each configured resource, two or more downlink reference signals, and a demodulation reference signal of an associated downlink transmission.
US12284646B2
The disclosure relates to a fifth generation (5G) or sixth generation (6G) communication system for supporting a higher data transmission rate. A method for improving the coverage of an uplink channel for uplink transmission is provided. The method includes receiving, from a base station, configuration information including resource allocation information for transport block (TB) processing over multiple slots (TBoMS), repetitive transmission configuration information, and frequency hopping information, identifying whether repetitive transmission of the TBoMS is configured, based on the configuration information, determining a frequency hopping pattern between TBoMS repetitive transmissions based on the frequency hopping information and a number of slots for frequency hopping in case that the repetitive transmission of the TBoMS is configured, and performing the repetitive transmission of the TBoMS based on the frequency hopping pattern.
US12284631B2
According to various embodiments, a reception STA may receive a physical layer protocol data unit (PPDU) including a first field and a second field from a transmission STA. The first field may include information about a configuration of a plurality of resource units (RUs). The second field may include a plurality of user fields for allocating the plurality of RUs to a plurality of users. The reception STA may identify a multiple RU (M-RU) allocated to itself and decode the received PPDU.
US12284629B2
A method and apparatus for support of CU-DU split in MT-EDT procedure in a wireless communication system is provided. A Central Unit (CU) of a Radio Access Network (RAN node) receives, from a Distributed Unit (DU) of the RAN node, second information related to a transport block used for the wireless device. The CU decides a Radio Resource Control (RRC) state for transmitting the downlink (DL) data to the wireless device based on the first information related to the DL data and the second information related to the transport block.
US12284628B2
Aspects of the technology evaluate a client device query to identify an IP address-based estimated location of a mobile device. One or more candidate wireless stations are selected in accordance with the IP-based estimated location and a location-relevant response to the query is also generated in accordance with the IP-based location. This information is transmitted to the mobile device. The mobile device compares the received information about the candidate wireless stations against one or more actual wireless stations with which the mobile device is in communication. Log information is generated as a result of the comparison. The log information is anonymized and transmitted to the network without user ID or other client-identifiable information included in the log. The received log information is then used to validate the initial estimated location. Aggregation of log information from multiple devices may be used in the validation process.
US12284626B2
Techniques are described by which a network management system (NMS) is configured determine a specific wireless channel assigned to a first AP device. The NMS is further configured to determine one or more neighboring AP devices that are within a certain proximity of the first AP device and generate a packetized scan command for each of the one or more neighboring AP devices. The NMS is further configured to send the packetized scan command to each of the one or more neighboring AP devices and receive, from the first AP device and each of the one or more neighboring AP devices, signal samples of a client device connected to the first AP device on the specific wireless channel assigned to the first AP device. The NMS is further configured to, based on the received signal samples, determine a location within the site of the client device.
US12284621B2
Described herein are technologies that utilize full duplex gateway terminals in satellite networks with half duplex user equipment. The disclosed scheduling technologies incorporate the knowledge of the propagation delay between a gateway terminal and each UE in communication with the gateway terminal. Based on this propagation delay, a scheduler can allocate DL and UL time slots in a scheduling frame in a way that avoids allocating overlapping DL and UL time slots at each UE.
US12284611B2
Disclosed are a method and an apparatus for generating an STF signal usable in a wireless LAN system. The STF signal is included in a field used to improve AGC estimation of a MIMO transmission. A portion of the STF signal is used to transmit an uplink, and can be used for uplink MU PPDUs transmitted from a plurality of STAs. The STF signal that is disclosed, for example, is used for a 40 MHz band or an 80 MHz band, is desirably usable for the 40 MHz band, and can be generated based on a sequence in which a predetermined M sequence is repeated. The predetermined M sequence can be a binary sequence of which the length is 15 bits.
US12284609B2
The embodiments of the present disclosure provide a signal receiving method, a signal sending method, a terminal, and a network side device. The receiving method includes: receiving, by a terminal, indication information and data scheduling information sent by a network side device; entering, by the terminal, an energy saving mode or an abnormal power consumption mode according to the indication information, wherein power consumption in the abnormal power consumption mode is lower than power consumption in the normal power consumption mode; performing, by the terminal, data transmission according to the data scheduling information when a data transmission time corresponding to the data scheduling information arrives.
US12284605B2
The embodiments of the present application provide a wireless communication method, including: receiving, by a terminal device, first information broadcast by a first network; wherein the first information includes a capability level threshold and/or a type of a device prohibited or allowed to access the first network; the first information is configured to restrict access to the first network.
US12284601B2
An apparatus for an application function (AF) includes a communication interface and a processor operably coupled to the communication interface. The processor is configured to receive, via the communication interface, network slice identification and media service identification across slices for a media service. The processor is also configured to manage a service corresponding to the network slice identification to a user equipment (UE). The processor is further configured to receive, via the communication interface, expected media service policy information from the UE. In addition, the processor is configured to identify policy information corresponding to each of the slices, respectively. The processor is also configured to transmit, via the communication interface, the policy information corresponding to each of the slices, respectively.
US12284600B2
A system and method for generating a coordinated set of peripheral devices that possess the ability to connect and disconnect as a coordinated set to each of multiple Information Handling Systems (IHSs). In an illustrative, non-limiting embodiment, an IHS may include computer-executable instructions to receive an advertisement from a first peripheral device from among a plurality of peripheral devices. Each peripheral device is configured with a common secret group identity key that identifies the peripheral devices as belonging to a coordinated group. When the first peripheral device is recognized as a member of the coordinated group according to the advertisement, perform a discovery operation to identify the first peripheral device and the other peripheral devices using the secret group identity key, and connect the IHS with the first peripheral device and the other peripheral devices that belong to the coordinated set.
US12284596B2
A system and method for managing beacon size. In some embodiments, the method includes: transmitting, by an Access Point Station (AP STA) a first beacon; transmitting, by the AP STA, a second beacon indicating feature information; and transmitting, by the AP STA, a first follow-on beacon, the first follow-on beacon supplementing the feature information indicated in the second beacon.
US12284591B2
Methods, systems, and devices for wireless communications are described. In some communications systems, interference may impede signaling between a base station and a target user equipment (UE) such that a base station may identify a donor UE to relay communications to the target UE. The donor UE may receive a coded data packet from the base station, and may identify a radio network temporary identifier (RNTI) scrambling code for the packets addressed to the target UE. In cases where the donor UE identifies that the packet has an RNTI scrambling code associated with the target UE, the donor UE may forward the coded data packet to the target UE base on the RNTI scrambling code. Such early detection of data packets addressed to the target UE may allow for the UE to forward a data packet without fully decoding the packet.
US12284590B2
Multiple communication paths are established for communications between a User Equipment (UE) and a wireless communication network, before switching between those paths is initiated. Signaling that includes an explicit indication that the UE is to switch between the multiple communication paths is transmitted to and received by at least the UE for which the multiple communication paths were established. Responsive to the explicit indication, communications are switched between the communication paths. At least one of the communication paths includes a relay path between the UE and the wireless communication network through another UE. Establishment of the multiple paths in advance of the switching may be useful in enabling fast switching with low latency and/or no traffic loss.
US12284583B2
An emergency call method is applied to a vehicle-mounted communications system. The emergency call method includes a telematics box activating a host function. The host function includes controlling a first transmission node and a peripheral connected to the first transmission node. The telematics box is connected to the first transmission node, and the telematics box performs data transmission with the first transmission node using the host function. The first transmission node is in a master node mode.
US12284582B2
The system receives a SIP call from a UE associated with a user, where the SIP call includes multiple fields, and where a field among the multiple fields indicates that the SIP call is the open-line call. The system receives a first indication that the UE associated with a callee has generated a notification to the callee of the SIP call. Upon identifying the SIP call as the open-line call and receiving the first indication, the system sends a first message to the UE associated with the caller that the UE associated with the callee has generated the notification. The first message indicates to the UE associated with the caller to generate a first inaudible notification indicating that the UE associated with the callee generated the notification.
US12284576B2
A robot including a resource sharing circuit, configured to operate according to a resource utilization limit, and comprising a processor, configured to receive resource data representing a resource utilization of the robot; if the resource utilization of the robot is within a predetermined range, operate according to a first operational mode, wherein an upper limit of the predetermined range is defined by a tolerance relative to the resource utilization limit; if the resource utilization of the robot is outside of the predetermined range, operate according to a second operational mode; wherein the first operational mode includes controlling a communication circuit to send a first wireless signal representing an availability to accept a task; and wherein the second operational mode includes controlling the communication circuit to send a second wireless signal representing an availability to allocate a task to an external device for remote processing.
US12284575B2
Disclosed are a message service provision method for providing a message service via an open chat room corresponding to link information, and a message server and a terminal for executing the message service provision method. The message service provision method comprises the steps of: transmitting, to a message server, a request for issuing link information for an open chat room via a message application; receiving, from the message server, link information generated in response to the request for issuing link information; sharing the link information according to a request for sharing inputted by a user of a host terminal; and performing chatting with a user of a guest terminal participating in the open chat room by means of the shared link information; wherein the user of the guest terminal and the user of the host terminal are users who subscribed to a message service provided via the message server.
US12284565B2
It is provided a method comprising: checking if an indication indicates that a target cell is configured to store concurrently first and second configurations of a terminal, wherein the first configuration is based on a first conditional handover request, and the second configuration data set is based on a second conditional handover request; monitoring if the source cell intends performing a radio reconfiguration of the terminal after the source cell configured the terminal for the first conditional handover; canceling the first conditional handover if the source cell intends performing the radio reconfiguration and the indication does not indicate the concurrently storing; instructing the source cell to request the second conditional handover from the target cell if the source cell intends performing the radio reconfiguration and the indication indicates the concurrently storing.
US12284563B2
The present disclosure may provide a method of operating a terminal based on a plurality of networks in a wireless communication system. Herein, the method of operating the terminal may include establishing a connection with a public land mobile network (PLMN), determining whether or not to simultaneously access the PLMN and non-public networks (NPN), transmitting, to the NPN, indication information indicating a simultaneous access request for the PLMN and the NPN, receiving, from the NPN, supported PLMN list information, and when the connected PLMN is included in the supported PLMN list information, accessing the NPN through a packet data unit (PDU) session of the PLMN. Herein, a supported PLMN list may be a list which is determined according to whether or not a quality of service (QoS) is supported based on a service level agreement (SLA) between the PLMN and the NPN.
US12284559B2
Embodiments herein relate, e.g., to a method performed by a wireless device for handling communication in a wireless communication network. The wireless device transmits to a radio network node, a first preamble associated with a selected downlink beam. The wireless device further monitors for a random access response, RAR, in a first RAR reception window and when the RAR is not received in the first RAR reception window, monitors for the RAR in a second RAR reception window of a different beam or to transmit, to the radio network node, a second preamble associated with a second beam wherein the first preamble is associated with a channel state information reference signal and the second preamble is associated with a synchronization signal block.
US12284557B2
The disclosure relates to a pre-5th-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4th-Generation (4G) communication system such as Long Term Evolution (LTE). A method for handling handover by a UE (400) is provided. The method includes determining, by User Equipment (UE), whether a measurement identity (ID) of a first neighboring cell and a measurement ID of a second neighboring cell are same. If the measurement ID of the first neighboring cell and the measurement ID of the second neighboring cell are different, the method includes prioritizing sending of a measurement report of the first neighboring cell over a measurement report of the second neighboring cell to a serving cell. If the measurement ID of the first neighboring cell and the measurement ID of the second neighboring cell are same, the method includes splitting a measurement report for the first neighboring cell and a measurement report of the second neighboring cell and sending the measurement report of the first neighboring cell before the measurement report of the second neighboring cell.
US12284552B2
A method of traffic flow management with stream classification service (SCS) and associated apparatus are provided, where the wireless communications system may include a first device and a second device. The method may include: carrying and sending a first descriptor element in a first request frame, requesting for a SCS stream from the first device, wherein the first descriptor element is related to the SCS, wherein the first request frame includes a first indication, indicating whether the second device agrees that the SCS stream and any other stream from the first device to the second device share a same traffic identifier (TID).
US12284551B2
A multi-link device (MLD) configured for reporting per-port frame replication and elimination for reliability (FRER) capabilities uses a per-Port FRER-capabilities object generated by upper MLD MAC layer to indicate per-Port FRER capabilities of lower layers including lower MAC and PHY layers. The per-port FRER capabilities of the lower layers may be reported using the per-Port FRER-capabilities object to an upper layer such as an FRER layer. The per-Port FRER-capabilities object may indicate at least whether or not a port between the upper MLD MAC layer and the FRER layer supports frame replication and duplication elimination capabilities in the underlying MAC and PHY layers.
US12284547B2
A method performed by a user device having a multiple connectivity configuration with a plurality of radio links to a plurality of network nodes in a radio communication network is provided. The user device can determine a change occurred in an amount of uplink data available for transmission in a first uplink buffer of the user device on a first radio link of a plurality of radio link to first network node. Responsive to the change, the user device can trigger a buffer status report for transmission to a second network node of the plurality of network nodes on a second radio link of the plurality of radio links for which a change in an amount of uplink data available for transmission in a second uplink buffer was not determined. A method performed by the first network node is also provided.
US12284541B2
A method performed by a UE trace initiation node for a wireless communication network comprises transmitting, via a direct interface to a radio access network node or function, a trace request message comprising a request to initiate a trace on one or more user equipments. A method performed by a radio access network node or function for a wireless communication network comprises receiving, via a direct interface with a UE trace initiation node, a trace request message comprising a request to initiate a trace on one or more user equipments.
US12284540B2
A method for cell management, a terminal, and a network-side device are provided. The method for cell management applied to the terminal includes: receiving configuration information sent by the network-side device, where the configuration information includes trigger conditions for triggering a cell management operation and measurement objects; performing a measurement operation corresponding to a target trigger condition on a target measurement object, to obtain a measurement result; if the measurement result satisfies the target trigger condition, performing a management operation on a target cell, where the target measurement object is any one of the measurement objects included in the configuration information, and the target trigger condition is associated with the target measurement object.
US12284536B2
A method and apparatus for reporting data transmission procedure failure for network optimization in a wireless communication system is provided. A wireless device performs the data transmissions to a network in idle state and/or inactive state. A wireless device detects failures of the data transmissions. A wireless device logs information related to each of the failures and counts a number of the failures, while the logging validity timer is running. A wireless device establishes or resumes a connection with the network based on that the counted number is equal to or bigger than a threshold value.
US12284525B2
Systems, methods, and instrumentalities are provided for a network control node for connecting a wireless transmit/receive unit (WTRU) to a network slice in a network. The network control node may receive service information associated with a service being requested by the WTRU, wherein the service information comprises one or more of a service class, a quality of service (QoS) requirement, or a mobility characteristic. The network control node may determine slice information associated with a plurality of network slices, wherein the slice information comprises one or more of an identifier of the network slice, priority of the network slice, a service class served by the network slice, a target device class, a QoS target, mobility support, security service, charging information, and/or performance information. The network control node may determine subscriber information for the WTRU. The network control node may select at least a first network slice of the plurality of network slices to serve the WTRU, wherein the network control node selects the first network slice based on the service information, the slice information associated with the first network slice, and the subscriber information for the WTRU. The network control node may determine whether the network control node or another network control node should service the WTRU for accessing the first network slice. On condition that the network control node determines that the network control node should service the WTRU for accessing the first network slice, the network control node may provide at least one network service associated with the first network slice to the WTRU. Or, on condition that the network control node determines that the another network control node should service the WTRU for accessing the first network slice, the network control node may send a request to the another network control node that indicates that the another network control node should service the WTRU for accessing the first network slice.
US12284523B2
A method, system and product for identifying spoofed maritime signals using information from other vessels. The method comprises obtaining one or more location-reporting signals of a maritime vessel, wherein the one or more location-reporting signals comprise one or more respective sets of geographical coordinates, each of which having a timestamp. The method further comprises determining that the one or more location-reporting signals are at least partially fabricated, wherein said determining is based on a contradiction between a content of the one or more location-reporting signals and information derived from location-reporting signals received from other maritime vessels. The method further comprises performing a responsive action.
US12284516B1
Techniques are described for controlling a first device that operates in a first mode. In an example, the first device receives, while it is operating in a first mode, a secret from a second device. The first device is capable of wireless data reception and incapable of wireless data transmission in the first mode. The first device determines that the secret is valid. Based at least in part on the secret being valid, the first device performs at least one of: switching an operational mode of the first device from the first mode to a second mode, or performing, while operating in the first mode, a command indicated by the second device. The first device is capable of the wireless data transmission in the second mode.
US12284510B2
Provided is a method for generating stereophonic sound. According to one embodiment of the present invention, a phase angle relative to an original sound is controlled by focusing on a rearward sense of localization, which is difficult to express, and using a plurality of delay devices (delay machines) to change the time, phase, and direction thereof. Thereby provided is a technology having the purpose of improving a subjective evaluation in a psychological space by using a rearwardly-localized sound source to emphasize and effectively simulate there actually being a sound source toward the rear.
US12284495B2
A system for reducing unwanted audible effects can include any or all of: a tactile stimulation device; a set of audio input devices; a set of filters and/or barriers; a set of audio output devices; a computing and/or processing subsystem; a set of algorithms and/or models; an extended reality subsystem; and/or any other components. A method for reducing unwanted audible effects includes any or all of: collecting information from each user of a set of users at a set of audio input devices; processing the audio information; and transmitting the processed audio information to any or all of the set of users.
US12284493B2
A method of controlling a vibrational transducer, the method comprising: tracking a temperature metric of the vibrational transducer; and controlling a drive signal for the vibrational transducer, where the drive signal is limited to a value to protect the vibrational transducer from over excursion, and where said value is a function of the tracked temperature metric.
US12284480B2
The present disclosure is directed to transducer assemblies or device in which one or more buried cavities are present within a substrate and define or form one or more membranes along a surface of the substrate. One or more piezoelectric actuators are formed on the one or more membranes and the one or more piezoelectric actuators drive the membranes at an operating frequency with an operating bandwidth of the transducer assemblies. Each of the one or more membranes is anchored at respective portions to a main body portion of the substrate to provide robust and strong anchoring of each of the one or more membranes to push unwanted flexure modes outside the operating bandwidth of the transducer assemblies.
US12284477B2
An acoustic output apparatus is provided. The acoustic output apparatus may include a vibration assembly and a mass element. The vibration assembly may include a piezoelectric structure and a vibration element. The piezoelectric structure may be configured to convert an electrical signal into mechanical vibrations, and the vibration element may be connected to the piezoelectric structure at a first position of the piezoelectric structure and configured to receive the mechanical vibrations to generate an acoustic signal. The mass element may be connected to the piezoelectric structure at a second position of the piezoelectric structure.
US12284474B2
An information handling system neck speaker rests on an end user's shoulders to direct ultrasonic audio at the end user that resolves on impact to audible sound. The audible sound reflects to microphones on the neck speaker that monitor for doppler effects to determine head motion that is available for use as an input at the information handling system. Ultrasonic energy that does not impact the end user dissipates so that the end user can hear audio without wearing headphones yet avoid others nearby from hearing the audio.
US12284472B2
A microphone transmitter has a microcontroller that operates in a high gain mode when the portable housing is in a horizontal position or in a low gain mode when the portable housing is in a vertical position. In another implementation, the microcontroller operates in one of the following modes: (1) operate the microphone at a low microphone gain when the portable housing is in a vertical position and when voice activity is detected; (2) operate the microphone at a lower microphone gain when the portable housing is in a vertical position and when no voice activity is detected; (3) operate the microphone at a high microphone gain when the portable housing is in a horizontal position and when no voice activity is detected; or (4) operate the microphone at a higher microphone gain when the portable housing is in a horizontal position and when voice activity is detected.
US12284471B2
A portable speaker is disclosed. The portable speaker includes a speaker, a light source, and a reflector. The speaker is adapted to produce sound. The light source is adapted to emit light. The reflector is adapted to redirect at least a portion of the light to illuminate one or more ground surfaces.
US12284461B2
A synchronized data set is generated from multiple asynchronous data sets. An interpolated data set is generated for each asynchronous data set, at a higher data rate than recorded data rates for the asynchronous data sets. The interpolated data for each data set is then sampled at a lower data rate which is common to all the interpolated data sets. The sampled data points are synchronized between the different data sets, such that the sampled data points represent a synchronized data set. Input telematic data can be reduced to inflection points in the telematic data, and interpolation and sampling of asynchronous data sets can be limited to threshold time periods around the inflection points.
US12284448B2
There is provided an optical distance measurement system including an image sensor and a processing unit. The processing unit is configured to generate an image to be calculated according to at least one image captured by the image sensor, wherein different image regions of the image to be calculated correspond to different exposure times thereby improving the accuracy of the distance calculation.
US12284447B2
A method and apparatus for normalizing an image in an image capturing device includes receiving a processed image by the image device. The processed image is brightness normalized to create a brightness normalized image. The brightness normalized image is provided to an artificial intelligence engine for processing.
US12284446B2
The invention relates to an apparatus for ascertaining data for a panoramic image of a street with a camera and a fastening device. By means of the fastening device the camera can be positioned in or on the vehicle to record image data containing an angle of 90° to the direction of movement of the vehicle. In addition, the camera is designed to record a continuous film with a resolution of more than 1,920 by 1,080 pixels per frame. Furthermore, the invention relates to a method for using the apparatus according to the invention.
US12284438B2
An object detection unit detects an object of interest from within frames of video acquired from an image capturing unit. A vector strength adjustment unit adjusts the strength of a correction vector for cancelling out shake caused by vibration applied to the image capturing unit. A cutout position determination unit determines a cutout position for cutting out an image of a predetermined size from each frame of the acquired video. The cutout position determination unit moves the cutout position in accordance with the correction vector and separately determines an object cutout position and a background cutout position according to the strength of the correction vector. An image composition unit combines image data of the object cut out from the object cutout position with image data of a background cut out from the background cutout position excluding the object.
US12284434B2
In an imaging system, a server, a communication terminal, an imaging method, a program, and a recording medium, a first image is analyzed for each first image, a feature value of the first image is acquired, and the first image, a set value regarding capturing of the first communication terminal in a case where the first image is captured, and the feature value of the first image are stored in association with each other in a memory. A first image associated with a feature value coincident with or similar to a feature value of a second image is searched for from among the first images stored in the memory, and a set value associated with the searched first image is acquired from among the set values stored in the memory. The acquired set value is set for a second communication terminal, and an image is captured based on the set value.
US12284432B2
A camera module according to an embodiment includes a circuit board including a cavity; a first plate including a first region vertically overlapping the cavity and a second region other than the first region; a second plate disposed on the first region of the first plate; and an image sensor disposed on the second plate; and wherein an upper surface of the second plate is positioned lower than an upper surface of the circuit board.
US12284431B2
An image capturing apparatus that can cool an image sensor without interfering with an anti-vibration movement of the image sensor. An image sensor substrate implements an image sensor. A control circuit substrate controls an entire apparatus. An anti-vibration mechanism moves the image sensor substrate in a plane perpendicular to an optical axis of a lens. A cooling fan and a first duct are arranged behind the control circuit substrate in an optical axis direction opposite to the lens. A second duct is branched from the first duct and dissipates heat of the image sensor substrate. Inside spaces of the first and second ducts are spatially separated from the substrates. The second duct is arranged at a position that partially overlaps with the image sensor substrate in viewing from a top and that does not touch the image sensor substrate even when the image sensor substrate moves to a closest position.
US12284430B2
A container for video or photographic image-taking apparatuses comprising a casing that includes a housing for housing an image-taking apparatus. The casing includes a transparent window, an inner surface of which faces a lens of the image-taking apparatus. The casing further includes a sheet wound on itself in a spiral so as to define between its own facing surfaces a spiral-shaped path. The housing being comprised in the innermost turn of the spiral-shaped path. The container further includes a delivery duct coupled to the housing that is configured to convey a temperature-regulating gas at a given temperature into the housing and into the spiral-shaped path.
US12284411B2
A video playing method includes: transmitting, in response to detecting a user input on a target control in a map display interface, a first acquisition request, the first acquisition request being used for acquiring target video data corresponding to the target control; receiving response information for the first acquisition request, and acquiring the target video data based on the response information; and displaying a video window on the map display interface, the video window being used for playing the target video data.
US12284410B2
Devices, systems and processes for facilitating watch parties are described. For at least one embodiment, a system may include a sync server; a first user device communicatively coupled to the sync server; a second user device communicatively coupled to the sync server; and a content source providing a content. The sync server may transmit the content as each of a first content to the first user device and as a second content to the second user device. The sync server may be configured to adjust a first bit rate for the first content and, upon adjusting the first bit rate, the first content and second content may be respectively provided to each of the first user device and the second user device such that the devices can substantially simultaneously and separately present the first content to the first user and the second content to the second user.
US12284399B2
A geolocationing system and method for providing awareness in a multi-space environment, such as a hospitality environment or educational environment, are presented. In one embodiment of the geolocationing system, a vertical and horizontal array of gateway devices is provided. Each gateway device includes a gateway device identification providing an accurately-known fixed location within the multi-space environment. Each gateway device includes a wireless transceiver that receives a beacon signal from a proximate wireless-enabled personal locator device. The gateway devices, in turn, send gateway signals to a server, which determines estimated location of the wireless-enabled personal locator device.
US12284395B2
A data generation method is for generating video data that covers a second luminance dynamic range wider than a first luminance dynamic range and has reproduction compatibility with a first device that does not support reproduction of video having the second luminance dynamic range and supports reproduction of video having the first luminance dynamic range, and includes: generating a video signal to be included in the video data using a second OETF; storing, into VUI in the video data, first transfer function information for identifying a first OETF to be referred 10 to by the first device when the first device decodes the video data; and storing, into SEI in the video data, second transfer function information for identifying a second OETF to be referred to by a second device supporting reproduction of video having the second luminance dynamic range when the second device decodes the video data.
US12284388B2
Provided is a video decoding method including: determining an inter prediction mode of a current block when the current block is inter-predicted; determining at least one reference sample location to be referred to by the current block, based on the inter prediction mode of the current block; determining filter information to be applied to at least one reconstructed reference sample corresponding to the at least one reference sample location, based on the inter prediction mode of the current block; performing filtering on the at least one reconstructed reference sample, based on the filter information; and decoding the current block by using prediction samples generated via the filtering.
US12284383B2
A method for video coding is provided. The method includes obtaining a first reference picture and a second reference picture associated with a current prediction block, obtaining a first prediction L0 based on a first motion vector MV0 from the current prediction block to a reference block in the first reference picture, obtaining a second prediction L1 based on a second motion vector MV1 from the current prediction block to a reference block in the second reference picture, determining whether a bidirectional optical flow (BDOF) operation is applied, and calculating a bi-prediction of the current prediction block based on the first prediction L0 and the second prediction L1, and first gradient values and second gradient values.
US12284372B2
A method of encoding video streams includes, at an encoding device, receiving a first video stream frame from a first server device at the encoding device at a first receipt time; receiving a second video stream frame from a second server device at the encoding device at a second receipt time; encoding the first video stream frame with the encoding device; determining a delay duration based at least partially on a first encoding duration of the first video stream frame and the second receipt time; and transmitting a delay instruction based at least partially on the delay duration to the second server device.
US12284366B2
Disclosed is a method for coding a video based on a long-term reference frame. The method includes: setting a long-term reference frame according to attribute information of an image frame; determining a reference index of a to-be-coded image frame based on a normal reference frame and the long-term reference frame; and acquiring a target matching block by performing inter prediction based on the reference index, so as to achieve coding of the to-be-coded image frame; wherein setting the long-term reference frame according to the attribute information of the image frame includes: setting the long-term reference frame based on a degree of redundancy in a time domain and a degree of redundancy in a spatial domain of the image frame.
US12284365B2
A method including: extracting a set of video features representing properties of a video segment; generating a set of bitrate-resolution pairs based on the set of video features, each bitrate-resolution pair in the set of bitrate-resolution pairs defining a bitrate and defining a resolution estimated to maximize a quality score characterizing the video segment encoded at the bitrate; accessing a distribution of audience bandwidths; selecting a top bitrate-resolution pair in the set of bitrate-resolution pairs; selecting a bottom bitrate-resolution pair in the set of bitrate-resolution pairs; selecting a subset of bitrate-resolution pairs in the set of bitrate-resolution pairs based on the distribution of audience bandwidths, the subset of bitrate-resolution pairs defining bitrates less than the top bitrate and greater than the bottom bitrate; and generating an encoding ladder for the video segment comprising the top bitrate-resolution pair, the bottom bitrate-resolution pair, and the subset of bitrate-resolution pairs.
US12284364B2
A ML model that may be implemented by plural sub-modules including a Random Forest model is used to generate a quantization parameter (QP) for a video encoder based on various encoding factors input to the ML model including frame size and channel rate.
US12284361B2
A system and method of decoding a transform block for a colour channel of an image frame from a video bitstream. The method comprises determining a chroma format of the image frame, the chroma format having chroma channels of the image frame being subsampled relative to a luma channel of the image frame; determining a coefficient group size of the transform block, the coefficient group size being a largest area of the transform block of up to 16 samples, the coefficient group size being determined based only on the transform block size and independent of both (i) a colour plane of the transform block and (ii) colour plane subsampling due to the determined chroma format; and decoding the transform block using coefficient groups of the determined size from the video bitstream.
US12284357B2
The present invention is related to processing a video signal. A method for decoding a video according to the present invention may comprise checking a merge coding unit which is generated by merging a plurality of coding units neighboring each other based on an encoded syntax element, and decoding the checked merge coding unit, wherein a same motion vector is shared in the merge coding unit.
US12284350B2
Embodiments of this application provide a method for processing image signal conversion, including: obtaining a primary color component of a to-be-processed pixel; and converting a first value of the primary color component into a second value based on a preset dynamic range conversion model, where the dynamic range conversion model is: L ′ = F ( L ) = a × ( p × L n ( k 1 × p - k 2 ) × L n + k 3 ) m + b , where L is the first value, L′ is the second value, and k1, k2, k3, a, b, m, n, and p are model parameters.
US12284348B2
Innovations in control and use of chroma quantization parameter (“QP”) values that depend on hum QP values. More generally, the innovations relate to control and use of QP values for a secondary color component that depend on QP values for a primary color component. For example, during encoding, an encoder determines a QP index from a primary component QP and secondary component QP offset. The encoder maps the QP index to a secondary component QP, which has an extended range. The encoder outputs at least part of a bitstream including the encoded content. A corresponding decoder receives at least part of a bitstream including encoded content. During decoding, the decoder determines a QP index from a primary component QP and secondary component QP offset, then maps the QP index to a secondary component QP, which has an extended range.
US12284346B2
The various implementations described herein include methods and systems for coding video. In one aspect, a method includes determining whether multiple transform units are within the video block in accordance with a determination that the inter-prediction mode is enabled; and in accordance with a determination that multiple transform units are within the video block: determining a transform unit of the multiple transform units to apply a secondary transform based on a relative location of the transform unit within the video block, applying the secondary transform to the transform unit, and reconstructing/processing the video block based at least on the secondary transform.
US12284341B2
A decoder includes a memory and processing circuitry. The processing circuitry, in operation, changes values of pixels in a first block and a second block to filter a boundary therebetween, using clipping such that change amounts of the respective values are within respective clip widths. The clip widths for the pixels in the first block and the second block are selected based on block sizes of the first block and the second block. The pixels in the first block include a first pixel located at a first position, and the pixels in the second block include a second pixel located at a second position corresponding to the first position with respect to the boundary. The clip widths include a first clip width and a second clip width corresponding to the first pixel and the second pixel, respectively, and the first clip width is different from the second width.
US12284340B2
A method by which a decoding device performs image decoding, according to the present invention, comprises the steps of: deriving an intra prediction mode of a current block; deriving neighboring samples including left neighboring samples and upper neighboring samples of the current block; deriving reference samples for prediction of a target sample among the neighboring samples on the basis of the position of the target sample of the current block and the prediction angle of the intra prediction mode; determining an interpolation filter for the target sample; and deriving the prediction sample of the target sample on the basis of the interpolation filter and the reference samples.
US12284336B2
An image decoding method according to the present invention comprises the steps of: deriving at least one merge candidate on the basis of at least one of a spatial neighboring block and a temporal neighboring block of a current block; generating a merge candidate list including the merge candidate; acquiring LX direction motion information of the current block, from a first merge candidate included in the merge candidate list; acquiring L(1−X) direction motion information of the current block, from a second merge candidate different from the first merge candidate; and performing inter-prediction on the basis of the LX direction motion information and the L(1−X) direction motion information.
US12284334B2
A merge candidate list is generated, a merge candidate is selected from the merge candidate list as a merge candidate, a bitstream is decoded to derive a motion vector difference, and a corrected merge candidate is derived by adding the motion vector difference to a motion vector of the selected merge candidate for a first prediction without scaling and subtracting the motion vector difference from a motion vector of the selected merge candidate for a second prediction without scaling.
US12284333B2
Particular embodiments may remove a condition check in the semantics for checking a high-precision data flag. This simplifies the semantics used in the encoding and decoding process. In this case, even if the high-precision data flag is not set, the value of the weighted prediction syntax element is set by the BitDepth variable. However, even if the BitDepth is not considered high-precision data, such as 8 bits, the range for the weighted prediction syntax element is still the same as the fixed value. For example, the syntax elements luma_offset_l0[i], luma_offset_l1[i], delta_chroma_offset_l0[i][j], and delta_chroma_offset_l1[i][j] use the variable BitDepth as described above whether the flag extended_precision_processing_flag is enabled and not enabled to indicate whether the bit depth is above a threshold.
US12284332B2
There is included a method and apparatus comprising computer code configured to cause a processor or processors to perform parsing at least one video parameter set comprising at least one syntax element indicating whether at least one layer in the scalable bitstream is one of a dependent layer of the scalable bitstream and an independent layer of the scalable bitstream, coding a picture in the dependent layer by parsing and interpreting an inter-layer reference picture list, and coding a picture in an independent layer without parsing and interpreting the inter-layer reference picture list.
US12284330B2
An image encoding/decoding method and apparatus are provided. An image decoding method according to the present disclosure is performed by an image decoding apparatus. The image decoding method comprises constructing a merge candidate list for a current block based on a prediction mode of the current block, deriving motion information of the current block based on the merge candidate list, and generating a prediction block of the current block based on the motion information. Information on a maximum number of merge candidates included in the merge candidate list may be obtained through a sequence parameter set, and, based on the prediction mode being a subblock-based merge mode, the maximum number of merge candidates may be determined based on whether an affine mode is available for the current block.
US12284328B2
A display apparatus includes: a left-eye display unit and a right-eye display unit arranged side by side in a left-right direction to display an image; a line-of-sight detection unit configured to detect a left line of sight for an image and a right line of sight for an image when the user gazes at a target image displayed on the left-eye and the right-eye display units provided in front of the user, and an adjustment unit configured to adjust, based on the left and the right lines of sight for the image, a display position at which an image is displayed on each of the left-eye and the right-eye display units, wherein the adjustment unit is further configured to adjust the display position in accordance with a first difference in an up-down direction between the left and the right lines of sight for the image.
US12284323B2
A method of controlling an image processing apparatus that communicates with a chat service includes storing information on a transmission source of image data and a talk room in the chat service in association with each other, receiving image data, transferring the received image data to a stored transfer destination in association with the information on the transmission source of the image data, and notifying the talk room, stored in association with the information on the transmission source of the image data, that the image data has been received.
US12284314B2
Methods and apparatus for call traffic anomaly mitigation are described herein. One or more embodiments include receiving a scoring request including a telephone number associated with a telephone call at a scoring device from a call processing entity, receiving a violator list of telephone numbers and their corresponding severity values at the scoring device from an anomaly analyzer, determining a severity value associated with the telephone number by performing a lookup operation in the violator list, performing a random simulation using the severity value as a probability to determine an indicator value, and inputting the indicator value into a model to determine a call reputation score.
US12284302B2
Disclosed is an electronic device, including: a housing, which is provided with an opening; a functional module retractable into the housing or extendable out of the housing through the opening; and a driving mechanism, which is arranged in the housing. The driving mechanism includes a driving source, a lead screw, a nut set, and a caliper. The driving source is drivingly connected to the lead screw. The nut set includes a fitting part, and the fitting part is threadedly fitted with the lead screw. A first end of the caliper is in position-limiting fit with the fitting part, and a second end of the caliper is fixedly connected to the functional module. The cross-sectional shape of the fitting part is a polygon.
US12284291B2
An apparatus is provided for verifying a plurality of cryptographically signed user electronic records using a corresponding cryptographic proof. Cryptographic keys for verifying the plurality of user electronic records, and corresponding user electronic record schemas are cached in a local data store. The apparatus obtains up-to-date copies of the cryptographic keys and schemas for caching from a remote data store when the remote data store is accessible by the apparatus over the internet. Upon receipt of the data from the user device, when the remote data store is not accessible, the apparatus is configured to identify the cached cryptographic key and schema corresponding to the received cryptographically signed electronic record and cryptographic proof; and determine a verification result for the cryptographically signed electronic record based on the cryptographic proof and the identified cached cryptographic key and schema. An indication of the verification result is then output from the apparatus.
US12284280B2
Data in various formats can be protected in a distributed tokenization environment. Examples of such formats include date and time data, decimal data, and floating point data. Such data can tokenized by a security device that instantiates a number of tokenization pipelines for parallel tokenization of the data. Characteristics of such data can be used to tokenize the data. For instance, token tables specific to the data format can be used to tokenized the data. Likewise, a type, order, or configuration of the operations within each tokenization pipeline can be selected based on the data format or characteristics of the data format. Each tokenization pipeline performs a set of encoding or tokenization operations in parallel and based at least in part on a value received from another tokenization pipeline. The tokenization pipeline outputs are combined, producing tokenized data, which can be provided to a remote system for storage or processing.
US12284277B2
A service platform/transceiver device locking system include a transceiver device that disables its data communication operations during an initialization operation and generates challenge information, and a platform device that retrieves that challenge information. The platform device uses a service platform private key to encrypt the challenge information, and provides the encrypted challenge information and a service-platform-provider-private-key-signed service platform public key to the transceiver device. The transceiver device uses a service platform provider public key to verify a service platform public key in the service-platform-provider-private-key-signed service platform public key to produce a verified service platform public key that it uses to decrypt the encrypted challenge information to produce decrypted challenge information. If the transceiver device determines that the decrypted challenge information matches the challenge information, it enables its data communication operations and locks itself to operate with a service platform associated with the service platform public key.
US12284276B2
A physical card (in some cases without any on-board source of power or computing capabilities) is configured to maintain access information for digital bearer assets. A unique identifier visible on the card may be transmitted to a server-system to utilize functionalities corresponding to the card (e.g., based on information associated with the unique identifier) on a decentralized computing platform, like a blockchain-based decentralized computing platform. Private access information, like a secret, private key that corresponds to a public key (e.g., a public-private key-pair) or a representation of the private key (like a ciphertext thereof) and corresponding encryption key, may be physically concealed with tamper-evident components such that a user can readily determine whether the private access information was divulged. In some examples, a user is required to activate one or more tamper-evident features, thereby altering a visible state of the card, to utilize functionalities corresponding to the card.
US12284274B2
A method of distributing a real-life product version of a cryptographic digital asset includes modifying an attribute of the cryptographic digital asset based on a received input, the cryptographic digital asset being registered on a distributed blockchain ledger and including a plurality of attributes with at least one of the plurality of attributes being an attribute that is capable of modification. The modification being operative to transition the cryptographic digital asset through one or more stages of evolution. The method further includes unlocking the real-life product version of the cryptographic digital asset upon reaching a specific stage of evolution, and providing the user with the ability to purchase the unlocked real-life product version.
US12284266B2
A method for encrypting data of a field device includes steps of generating data using the field device, encrypting the data by the field device using a non-homomorphic encryption method using a first key, transmitting the non-homomorphically encrypted data to a first instance, and storing the non-homomorphically encrypted data in the first instance. The method also includes retrieving part of the non-homomorphically encrypted data stored in the first instance by a second instance, and decrypting the retrieved, non-homomorphically encrypted data using the second instance the first key. Further, the data is encrypted by the second instance using a homomorphic encryption method using a second key, wherein the homomorphically encrypted data is transmitted to the first instance or to a third instance and stored.
US12284262B2
Various techniques can include accessing a master tree that was generated using a plurality of protocol definitions. The plurality of protocol definitions can identifies an ordered set of actions and specifies, for each sequential pair of actions in the ordered set of actions, an action-advancement condition that identifies a criterion for advancing across the sequential pair of actions in the ordered set of actions so as to trigger a later of the sequential pair of actions. A master tree includes a set of dynamic nodes and a set of static nodes. The technique can include accessing a partial protocol definition that includes at least one action. The technique can include generating an auto-completion of the partial protocol definition using the master tree, at least some of the dynamic-node weights, and at least some of the static-node weights. The technique can output a representation of an auto-completed protocol definition.
US12284257B2
Notification systems and methods that combine the generation and delivery of notifications with the ability to dynamically select or render content for those notifications are disclosed. The selection of what content to include in such notifications, or the rendering of such content, may be performed at or after a time of the delivery of the notifications to users.
US12284255B2
Embodiments of the present invention provide a system for generating two-sided electronic interaction requests for completing resource transfers. In particular, the system may be configured to cause an entity system to transmit interaction data associated with an interaction between a user and a third party system, receive, from an entity system, the interaction data of the interaction associated with the user and the third party system, cause the third party system to generate a resource transfer request associated with the interaction, receive, from the third party system, the resource transfer request associated with the interaction, determine that the interaction data matches data accompanied by the resource transfer request for transfer of resources associated with the interaction, and route the resource transfer request to a settlement system to process the interaction and complete the transfer of resources associated with the interaction.
US12284251B2
Various embodiments of the present application set forth a computer-implemented method that includes intercepting a first system call from a client application, wherein the system call comprises a request to connect to a target destination; obtaining a file descriptor for a socket associated with the request to connect from the client application; modifying a network namespace for the socket; and causing a connection to be established from the client application to the target destination.
US12284234B2
A method for routing media in a surveillance system comprises, at a gateway device placed on a local network deployed at a location being surveilled and having network connectivity to a cloud computing device, detecting networked device(s) placed on the local network, the networked device(s) comprising media device(s) each configured to generate media stream data as the location is being surveilled, determining a level of interest associated with the media stream data, obtaining, based on the detecting, at least one rule indicative of when the media stream data is to be routed, based on the level of interest, via the gateway device and when the media stream data is to be routed directly to the cloud computing device for processing, and instructing, based on the level of interest, at least one of the networked device(s) to route the media stream data according to the at least one rule.
US12284228B1
The present teachings provide a method and device of virtually sharing physical contents across multiple sessions. The teachings provide retrieving, from a data store, virtual whiteboard content derived from a first whiteboard session. The virtual whiteboard content includes first physical data from a physical surface, first virtual data from a virtual whiteboard, first metadata corresponding to one or both of the first virtual data or the first physical data. The virtual content is categorized based on the first metadata. The categorized virtual content is transmitted as an image stream according to the retrieved virtual whiteboard content to a client device in a location of the physical surface to cause the image stream to be presented on the physical surface or a second physical surface during a second whiteboard session. The data store is updated with second content elements obtained from the physical surface during the second whiteboard session.
US12284226B2
A method of establishing a secure communication channel between a first communication device and a second communication device. The secure communication channel is defined by one or more algorithm options and the one or more algorithm options are associated with one of one or more option categories. The method includes receiving a signal representing one or more selections. The method further includes, for the respective option categories, generating a sorted list of algorithm options based on the received selections and generating a security association proposal including one or more of the algorithm options from the respective sorted lists of algorithm options. The security association proposal is generated based on an order in the sorted list of algorithm options. The method further includes transmitting the security association proposal to the second communication device for establishing the secure communication channel.
US12284217B2
A cross-domain data access service enables data access across two or more computing domains, such as, for example, transient access by a public device to data held in a private cloud. In particular, the cross-domain data access service can identify a data subset from within a secure datastore of a first computing domain. The cross-domain data access service can replicate the data subset within a transient datastore that is segregated from the secured datastore. The cross-domain data access service can implement a data access policy so as to enable a client device from a second domain to access the transient datastore.
US12284213B2
A method for domain name detection, a device and a storage medium are provided. The method includes: matching a to-be-detected domain name with a preset domain name set; in response to the to-be-detected domain name being not in the preset domain name set, calculating an edit distance between at least part of level domain names of the to-be-detected domain name and a preset domain name keyword in a domain name keyword set; in response to an edit distance between a target level domain name and a target preset domain name keyword being smaller than preset distance threshold, acquiring a character pair in which the target level domain name differs from the target preset domain name keyword, and matching with a similar character pair set; and in response to determining the character pair being in the similar character pair set, determining that the to-be-detected domain name has a security risk.
US12284210B2
An endpoint receives a photon signal jointly encoded in time and frequency as a time-frequency state, and separates the photon signal with a dispersive element to generate frequency components. The endpoint delays each corresponding frequency component by a corresponding time delay to separate out the frequency components in time before the endpoint recombines the frequency components to generate a frequency-separated signal. The endpoint measures the frequency-separated signal to determine the time-frequency state of the photon signal.
US12284202B2
Artificial Intelligence (“AI”) apparatus and method are provided that correlate and consolidate operation of discrete vendor tools for detecting cyberthreats on a network. An AI engine may filter false positives and eliminate duplicates within cyberthreats detected by multiple vendor tools. The AI engine provides machine learning solutions to complexities associated with translating vendor-specific cyberthreats to known cyberthreats. The AI engine may ingest data generated by the multiple vendor tools. The AI engine may classify hardware devices or software applications scanned by each vendor tool. The AI engine may decommission vendor tools that provide redundant cyberthreat detection. The AI engine may display operational results on a dashboard directing cyberthreat defense teams to corroborated cyberthreats and away from false positives.
US12284200B2
Implementations are directed to receiving graph data representative of a process-aware AAG that is representative of potential lateral movement of adversaries within a computer network, receiving risk profile data representative of a risk profile of an enterprise with respect to two or more risk aspects, generating, by a process-aware risk assessment module, a risk assessment based on the process-aware AAG and the risk profile, and generating, by a mitigation simulator module, a mitigation list based on the process-aware AAG, the risk profile, and the risk assessment, the mitigation list comprising a prioritized list of two or more facts of the process-aware AAG. Other implementations of this aspect include corresponding systems, apparatus, and computer programs, configured to perform the actions of the methods, encoded on computer storage devices.
US12284193B2
A system and a method are provided for an external server for use with a first network device and an external network. The external server contains: a memory having a priori data stored therein, the a priori data includes a plurality of potential security attack signatures; and a processor configured to execute instructions stored on the memory to cause the external server to: monitor the first network device for actions on the first network device; identify an action on the first network device that matches one of the plurality of potential security attack signatures of the a priori data; and notify the first network device that the action is a potential security attack.
US12284191B2
The present description relates to systems and techniques for allowing a third party verifier to verify aspects of secured data, or successful communication thereof. For example, a message or other data may be associated with a shared manifest that describes aspects of some data but does not reveal or expose the data. As a result, the data may be kept private while selective privacy and verification with respect to the data is achieved by the inclusion of only selected aspects of said data in the shared manifest.
US12284189B1
A location verification system and method of verifying a location of an entity are disclosed. The method includes receiving, using at least a processor, user data related to an entity, wherein the user data includes location data, generating, using the at least a processor, a user profile as a function of the user data, verifying, using the at least a processor, the location data of the user profile, receiving, using the at least a processor, a unique identifier of at least a location identifying component, wherein the unique identifier is associated with the location data of the user profile and verifying, using the at least a processor, a location of the entity by comparing geolocation data of a user device and the location data associated with the unique identifier.
US12284185B2
In one embodiment, a method includes receiving, by a WebAuthn proxy, login prompt information from a browser. The WebAuthn proxy and the browser are installed on a device. The method also includes generating, by the WebAuthn proxy, a WebAuthn credential request based on the login prompt information and communicating, by the WebAuthn proxy, the WebAuthn credential request to a WebAuthn authenticator. The method further includes receiving, by the WebAuthn proxy, a WebAuthn response from the WebAuthn authenticator and communicating, by the WebAuthn proxy, the WebAuthn response to the browser.
US12284178B2
Apparatus and methods for continuous real-time authentication are provided. The apparatus and methods may include using a biometric sensor on an Internet-of-things (“IoT”) device to measure a biometric attribute of a user. The measured biometric attribute may be transmitted to a server to compare to a stored biometric attribute and authenticate the user. The IoT device may continue to measure the biometric attribute of the user at a pre-determined interval. Each measurement may be used to authenticate the user. This continuous authentication process may take place without the user's conscious interaction with the IoT device. The apparatus and methods may include using the continuous authentication to process and approve a transaction the user requests.
US12284173B2
A system and method for security of Internet of things (IoT) devices are discussed. A user of a mobile device, such as a customer of a wireless communication network, may remotely lock an IoT device while concomitantly assigning an ad hoc password to the IoT device that can be subsequently used to unlock the device. Alternatively, an IoT device may self-lock and produce a password in response to detecting its motion. The produced password may be provided to the user of a mobile device and used later to unlock the IoT device.
US12284170B2
Disclosed are various approaches for providing touchless visitor management. A visitor can complete a visitor registration process using a client device of the visitor and obtain a virtual badge credential to a visitor's device. A physical access control system credential as well as a visitor badge can also be obtained to the visitor's device.
US12284169B2
Systems and methods are described for accessing resources of a Unified Endpoint Management (“UEM”) system through an enrolled device. In an example, an unenrolled device can be paired with an enrolled device. The unenrolled device can connect to the enrolled device on a local network. The enrolled device can verify the unenrolled device using a key provided during pairing. The unenrolled device can send requests for UEM resources to the enrolled device, which the enrolled device can send to a UEM server. The UEM server can send the requested UEM resources to the enrolled device, and the enrolled device can send the UEM resources to the enrolled device over the local network.
US12284163B2
An Internet of Things (IoT) device is deployed with embedded software. A debug client device stores an end-to-end encryption key that corresponds to an end-to-end encryption key stored on the IoT device. The debug client encrypts a debug instruction using the end-to-end encryption key and encrypts additional data using a point-to-point encryption key. The encrypted debug instruction and the encrypted additional data are sent to a debug server over a network. The debug server decrypts the additional data and identifies the IoT device from among multiple IoT devices. The debug server generates a message to the IoT device including the encrypted debug instruction, encrypts the message, and transmits the message to the IoT device. The IoT device decrypts the message using a first decryption key associated with the debug server, retrieves the encrypted message payload, and decrypts the message payload using the stored end-to-end encryption key.
US12284160B2
Systems and methods for federated secure vocabulary learning. The method may include communicating, by a first client network and a second client network and to a global federation terminal, a first set of encrypted tokens and a second set of encrypted tokens. The method may further include generating, by the global federation terminal, a consolidated vocabulary based on the first set of encrypted tokens and the second set of encrypted tokens. The method may include determining, a first set of weights and a second set of weights for the consolidated vocabulary. The method may include receiving by the global federation terminal the first set of weights and the second set of weights. The method may further include aggregating the first set of weights and the second set of weights. The method may further include distributing, to the first client network and the second client network, an aggregated set of weights.
US12284158B2
Cloud-based 5G security, implemented in a Multi-Access Edge Compute (MEC) system, includes steps of receiving a request for compute resources from User Equipment (UE); validating a user of the UE for the compute resources; responsive to the user being authorized, creating a connection between the UE and a destination of the compute resources; responsive to the user being unauthorized, rendering the compute resources as hidden from the UE. The steps can include utilizing a cloud-based system for control and signaling the connection.
US12284157B1
A method of dynamically managing network traffic with granular security zones is disclosed. The method includes receiving a data packet from a user device, the data packet including identifying information indicating a sender and a receiver. The method further includes blocking the data packet from reaching the receiver. The method still further includes mapping, in response to the blocking, the identifying information to entity information and asset information for the sender, and entity information and asset information for the receiver. The method yet further includes matching the entity information with an entity permission of one or more entity permissions, each entity permission indicating that a specific source asset associated with a specific entity can or cannot communicate with a specific target asset associated with a specific entity. The method still further includes updating one or more packet filter rules based on the matching.
US12284151B2
A method that comprises receiving at a network connected server from a first client terminal, a message comprising, an user application ID of a user selecting a media object using a user interface presented on a display of the first client terminal and the media object, generating a web document which presents a browser user interface and the media object when accessed by a browser, the web document having a network accessible storage address, sending the network accessible storage address from the network connected server to allow a browser installed in a second client terminal to use of the network accessible storage address to display the media object the browser user interface, identifying a usage of the browser user interface for inputting a reaction to the media object by a user of the second client terminal, and forwarding the reaction to the first client terminal using the sender user ID.
US12284146B2
Systems and methods herein describe generating automatic reactions in an augmented reality messenger system. The claimed systems and methods generate a contextual trigger defining a set of conditions at a first computing device, detect at least one of the set of conditions has been satisfied, cause presentation of an augmented reality content item at a second computing device, generate a user reaction in response to the presentation of the augmented reality content item and transmit the user reaction to a first computing device.
US12284137B2
An operation method of a first terminal in a communication system is provided. The method includes configuring sidelink (SL) bandwidth parts (BWPs) used for groupcast sidelink communication and transmitting a configuration information message including configuration information of the SL BWPs to participating terminals participating in the groupcast sidelink communication. The groupcast sidelink communication is performed with the participating terminals using one or more SL BWPs among the SL BWPs. In response to determining that reconfiguration of the SL BWPs is necessary, the SL BWPs are reconfigured and a reconfiguration information message including reconfiguration information of the SL BWPs is transmitted to the participating terminals.
US12284135B2
A base station may transmit a set of CSI-RSs corresponding to a set of ports of a UE and the UE may perform a set of CQI measurements on each port and across each sub-band. The UE may select, for each CSI-RS resource that the UE measures, a set of M worst CQIs and may select a best CSI-RS resource based at least in part on a corresponding set of M worst CQIs for the CSI-RS resource. The UE may report the M worst CQIs for the selected CSI-RS resource. Alternatively, the UE may select, for each CSI-RS resource that the UE measures, a set of M worst CQIs and may select a worst CSI-RS resource. In this way, the UE enables the base station to select a DMRS port and/or an MCS to use for communication.
US12284132B2
The present disclosure provides a channel monitoring control method and a terminal. The method includes: performing a first operation in a case that a monitoring resource in a power saving control channel conflicts with a resource corresponding to a first behavior, where the first operation includes one of the following: monitoring the power saving control channel; skipping monitoring the power saving control channel; and skipping monitoring the power saving control channel in a control resource set CORESET based on a currently activated transmission configuration indicator TCI state.
US12284126B2
Apparatuses, methods, and systems are disclosed for determining an association between DMRS and PTRS. One apparatus includes a processor that: determines a scheduled physical resource block position and bandwidth; and determines, based on the scheduled physical resource block position and bandwidth, an associated demodulation reference signal port index within the physical resource block for a phase tracking reference signal.
US12284125B2
A network controller may configure one or more channel state information-reference signal (CSI-RS) configurations for transmitting RSs to user equipments (UEs) for tracking. A CSI-RS configuration may specify a set of CSI-RS resources for transmitting RSs in two consecutive slots. The set of CSI-RS resources may include a plurality of one-port CSI-RS resources configured according to the CSI-RS configuration. The CSI-RS configuration may specify a quasi co-location (QCL) configuration including a set of QCL parameters, where a demodulation reference signal (DMRS) has a QCL relationship with the RS with respect to the set of QCL parameters. The network controller may signal the one or more CSI-RS configurations to UEs.
US12284117B2
A controller device receives, from a plurality of assisted replication network devices, respective utilization information associated with the plurality of assisted replication network devices. The controller device generates, based on the respective utilization information associated with the plurality of assisted replication network devices, load balancing information for a network device associated with two or more assisted replication network devices of the plurality of assisted replication network devices, and sends, to the network device, the load balancing information. The network selects, based on the load balancing information, a particular assisted replication network device of the two or more assisted replication network devices. The network device receives a traffic flow that is to be multicast and sends the traffic flow to the particular assisted replication network device, wherein sending the traffic flow to the particular assisted replication network device permits the particular assisted replication network device to multicast the traffic flow.
US12284104B2
Methods, apparatus, and articles of manufacture to monitor media are disclosed. An example apparatus includes at least one memory, machine-readable instructions, and at least one processor to execute the machine-readable instructions to at least establish a direct media network as a Group Owner after performance of a negotiation process with a streaming client device. The at least one processor is to add a client device to the direct media network based on a beacon response from the streaming client device and, after metadata is extracted from first media at the apparatus, cause transmission of the first media to a media presentation device via the direct media network, the metadata representative of an identification of the media, and cause transmission of a message including the identification of the media to a server via a network to credit the media as having been accessed based on the identification.
US12284096B2
A detection device includes: a switch provided to a transmission path that connects a plurality of function units to each other; a measurement unit configured to measure a signal that passes the transmission path, at a first node on a first end side of the switch and at a second node on a second end side of the switch; and a detection unit configured to compare a measurement result at the first node and a measurement result at the second node, which are obtained by the measurement unit, with a reference measurement result which is a measurement result for reference, and detect abnormality regarding the transmission path, based on a result of the comparison.
US12284088B2
A method performed by a co-ordination network entity in a communications network includes transmitting a request message to a network registration entity in the communications network for identification information for a plurality of candidate network entities in the communications network capable of performing collaborative learning, and receiving identification information for the plurality of candidate network entities from the network registration entity. The method further includes initiating, at one or more network entities of the plurality of candidate network entities, training of a model using a machine-learning algorithm as part of a collaborative learning process.
US12284085B2
Aspects of the present disclosure include systems, methods, computing devices, computer-implemented methods, and the like for modeling and/or simulating performance of a telecommunications network during one or more failure scenarios that reduces computational time and/or power over previous simulation techniques. Modeling and simulating the network may include generating an initial network model from network data information and applying one or more transformations to the initial network model to reduce the size of the model. Following transformation, simulation methods may be applied to the generated network model based on routing characteristics of the components of the network. To reduce the computations utilized to simulate such components and/or routing decisions in the network, one or more simulation algorithms may be applied to the transformed network model to reduce the number of routing decisions simulated.
US12284081B2
A network service management method in which a network management unit obtains information about a target network service, where the information about the target network service includes an identifier of the target network service and requirement information of the target network service. The network management unit obtains an identifier of a network based on the requirement information of the target network service, where the network meets the requirement information of the target network service. The network management unit configures an association relationship between the identifier of the target network service and the identifier of the network, or the network management unit configures the identifier of the target network service in management information of the network, or the network management unit configures the identifier of the network in management information of the network service.
US12284078B2
Methods and systems for customizing the characteristic of an electronic device (in the Internet of Things (IoT) environment based on at least one user's physiological state are provided. The method includes identifying context of the electronic device in response to receiving at least one event by the electronic device, wherein the at least one context includes at least one current user activity and an environmental context of a user. The method includes determining the change in a health parameter of the user and re-calibrates the characteristics of an electronic device through the magnitude of change in health parameter from the learning module. The method includes identifying current user activity and an environment context of the user on receiving the event from the electronic device).
US12284076B2
A method for generating a configuration file for configuring an information technology infrastructure is provided. The method may include receiving, from a first user at a first client, a first indication to publish an infrastructure module comprising a set of configurations to apply to an information technology infrastructure. The infrastructure module may be stored in a module registry in response to the first indication. A second indication selecting the infrastructure module may be received from a second user at a second client. In response to the second indication, the infrastructure module may be sent from the module registry to the second client for insertion into a configuration file being created at the second client. The insertion of the infrastructure module may incorporate, into configuration file, the set of configurations to apply to the information technology infrastructure. Related systems and articles of manufacture, including computer program products, are also provided.
US12284075B2
A notification method is performed by at least a first device of a plurality of devices forming nodes of a network. The first device is suitable for sending and/or receiving at least one data message via a first communication link to and/or from at least one second device of the plurality. The notification method is adapted to the first device transmitting at least one notification message signaling at least one predetermined operation relating to at least one instance of the data message and performed by a functional entity of the first device, the notification message including an identifier of the first device, an identifier of the functional entity, an identifier of the operation, and an identifier common to all of the instances of the data message within the first device. Also provided are a method and device for modeling the network from the notification messages.
US12284074B2
Aspects of the subject disclosure may include, for example, monitoring status of a network configured to provide end-to-end delivery of services to priority user equipment authorized according to a prioritized class of service and other user equipment not authorized for the prioritized class of service. The prioritized class of service extends a reserved network capacity for end-to-end delivery of a service via first domain including first network slices and a second domain including second network slices. A network interruption compromising the reserved capacity is determined based on the monitored status and integration of an alternate group of slices into one of the first network domain, the second network domain, or both to replace the compromised group of slices, is orchestrated. Integration of the alternate group of slices restores reserved network capacity according to the prioritized class of service. Other embodiments are disclosed.
US12284071B2
Various aspects involve a lagged prediction model trained for risk assessment or other purposes. For instance, a risk assessment computing system receives a risk assessment query for a target entity and provides an input predictor record for the target entity to a lagged prediction model. The input predictor record includes a first group of lagged values from a first time-series attribute associated with the target entity. The lagged prediction model is trained by implementing a group feature selection technique configured to select the first time-series attribute as input and to deselect a second time-series attribute associated with the target entity. The risk assessment computing system computes an output risk indicator from the input predictor record and transmits the output risk indicator to a remote computing system. The output risk indicator can be used to control access by the target entity to one or more interactive computing environments.
US12284070B2
A system for monitoring quantized signals in a bidirectional data stream and alerting a networked device of metric divergence by georegion includes a computing system that automatically, for each of multiple user entities, receives input signals and stores corresponding records , associated with the user entity, each representing a quantized input event. The computing system increments a resource of the user entity by a respective input quantity. Georegion-specific attributes associated with a respective georegion are discriminated, and the input records are associated with georegion. The computing system measures user-specific georegion-specific metrics for each georegion and determines whether the metrics diverge from a georegion-specific index. An alert is sent across a network for display on a user device upon determining a user-specific georegion-specific metric diverges from a georegion-specific index.
US12284067B2
Various aspects relate generally to the generation and wireless transmission of a long training field (LTF) and a data field within a 320 MHz or 240 MHz bandwidth channel. The LTF includes an LTF sequence based on a concatenation of a plurality of LTF subsequences, each LTF subsequence being associated with a channel bandwidth less than the total bandwidth of the channel, each of the plurality of LTF subsequences being selectively phase-rotated to reduce a peak-to-average power ratio. Each of the plurality of LTF subsequences may be associated with an LTF designed for an 80 MHz bandwidth channel. The LTF and the data field may then be transmitted in a wireless packet to at least one second wireless communication device via the 320 MHz or 240 MHz bandwidth channel.
US12284060B2
A signal transmission device transmits a driving signal for a gate-driving transistor between a primary circuit system and a secondary circuit system while isolating between the primary and secondary circuit systems. The signal transmission device includes: a first external terminal configured such that the ground terminal of the secondary circuit system is connected to it; a second external terminal configured such that the terminal voltage at it varies according to whether the first external terminal is in an open state; and an open detection circuit configured to monitor the terminal voltage at the second external terminal to perform open detection for the first external terminal.
US12284049B2
A method for receiving broadcast information in an OFDM communication system may comprise receiving, by a mobile station, a periodically broadcast scheduling message from a base station. The periodically broadcast scheduling message may be an OFDM signal which indicates for each type of a plurality of types of broadcast information included in broadcast information, a pattern of frames to monitor for the type of broadcast information. The periodically broadcast scheduling message may also indicate a length of time to monitor. The method may further comprise monitoring and receiving, by the mobile station, information for at least one of the plurality of types of broadcast information, based on the periodically broadcast scheduling message.
US12284044B2
A method and apparatus are disclosed for efficient hybrid automatic repeat request (HARQ) process utilization for semi-persistent and dynamic data transmissions, wherein a reserved HARQ process identification (ID) can be reused. A subset of a plurality of HARQ process IDs is reserved to use for a semi-persistent allocation, and data is transmitted based on the semi-persistent allocation. A dynamic allocation is received via a physical downlink control channel (PDCCH). At least one of the reserved HARQ process IDs is selectively used for transmitting data based on the dynamic allocation.
US12284042B2
Method and apparatus for transmitting and receiving wireless signal in wireless communication system
The present invention relates to a wireless communication system and, more particularly, to a method and apparatus therefor, the method comprising the steps of: receiving scheduling information including a DAI value and a 1-bit indicator, the DAI value indicating a modulo value for a scheduling order; receiving data on the basis of the scheduling information; and transmitting A/N feedback including A/N information about the data, wherein a position of the A/N information in the A/N feedback is determined based on (1) the DAI value and (2) a bit value of the 1-bit indicator or on whether the 1-bit indicator is toggled.
US12284038B2
Methods and systems for uneven segmentation of data packets to reduce retransmission penalty accumulated as a result of having to retransmit one or more of the last segments. The method includes segmenting a data packet into segments of different sizes, with generally larger segments in the first half and smaller segments in the second half, and transmitting the segments over an intermediate communication link to another node. The transmission of the segments begins before receiving the entire data packet, and retransmission of a corrupted segment takes place as soon as an indication indicative of the corrupted segment is detected.
US12284032B2
A first optical network device groups a plurality of FlexO instance frames into one group, where each of the plurality of FlexO instance frames carries one OTU signal; then, performs multiplexing on the plurality of FlexO instance frames grouped into one group, to generate one first FlexO frame; next, performing scrambling and FEC processing on the first FlexO frame to generate one second FlexO frame and send it to a second optical network device. If a rate of the FlexO instance frame is 100 Gbps and two FlexO instance frames are grouped into one group, the 200 G optical module can be used in the transmission method.
US12284030B2
A master node (11) transmits a bandwidth extension instruction including an extension duration DEX, an extension time slot number NEX, and an extension time TEX to multiple slave nodes (12). The master node (11) and the multiple slave nodes (12) execute a bandwidth extension process of modifying a communication frame such that the start time of the following cycle following the cycle designated by the extension time TEX is advanced by the extension duration DEX, the time slot identified by the extension time slot number NEX is extended by the extension duration DEX, and the time slot identified by the shortening time slot number NSH is shortened by the extension duration DEX. The master node (11) and the slave nodes (12) communicate with each other using the assigned time slots.
US12284028B2
Examples are disclosed that relate to improving security of radio frequency (RF) backscattered communication. In one example, a RF device includes a primary RF signal receiver, a secondary signal receiver, a signal mixer, and a transmitter. The primary RF signal receiver is configured to receive a RF carrier signal sent from a base station. The secondary signal receiver is configured to receive a masking signal from the base station. The signal mixer is configured to generate a response signal based at least on the RF carrier signal and generate a mixed signal by mixing the response signal and the masking signal. The transmitter is configured to broadcast the mixed signal, via backscattering, as a masked backscattered signal.
US12284026B2
Apparatuses, methods, and systems of hub communication with a satellite network or a terrestrial network are disclosed. One method includes determining a propagation delay between a wireless communication device and a base station of a satellite network, adjusting, by the wireless communication device, a timing offset between transmit and receive radio frames at the wireless communication device based on whether the satellite network or a terrestrial network is selected, and based at least on the propagation delay, configuring air interface communication protocol timer values including at least a wait time for a response based on at least a frame offset between uplink and downlink frames at the base station of the satellite network, and communicating, by the wireless communication device, with the base station of the satellite network when the satellite network is selected, and with a base station of the terrestrial network when the terrestrial network is selected.
US12284015B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may generate a UE capability report that indicates a number of active processing units (PUs) supported by the UE for calculations during a PU occupation duration and transmit the UE capability report to a base station. Numerous other aspects are provided.
US12283998B2
Systems, apparatus and methods for defining an impairment profile along a polarization quantum channel such as in terms of modal loss and decoherence. The disclosed impairment profile or characterization methods may be used as part of a tool such as to inform a network operator of a weakest span of the communication channel, thus facilitating optimal signal routing decisions.
US12283993B2
A branch ratio calculation method in an optical communication system constituting a tree-structured network in which a first communication device is used as a root node, a plurality of optical splitters are used as intermediate nodes, and a plurality of second communication devices are used as leaf nodes, the method including a calculation step of calculating branch ratios of the plurality of optical splitters based on a length of a transmission path between the first communication device and the optical fiber in order from a hierarchy of the tree-structured network so that the second communication device receives light transmitted by the first communication device at a target intensity.
US12283992B2
Aspects of the subject disclosure may include, for example, a base transceiver station having a processing system including a processor; and a memory that stores executable instructions that, when executed by the processing system, facilitate performance of operations of registering a wireless optical networking device with a fiber optic central office, wherein the registering uses a public land mobile network identifier that uniquely identifies a fiber optic network; encapsulating fiber signaling data for the wireless optical networking device received from the fiber optic central office; and transmitting the fiber signaling data via a radio bearer over an unlicensed radio spectrum to the wireless optical networking device. Other embodiments are disclosed.
US12283988B2
Systems and methods for performing operations based on LIDAR communications are described. An example device may include one or more processors and a memory coupled to the one or more processors. The memory includes instructions that, when executed by the one or more processors, cause the device to receive data associated with a modulated optical signal emitted by a transmitter of a first LIDAR device and received by a receiver of a second LIDAR device coupled to a vehicle and the device, generate a rendering of an environment of the vehicle based on information from one or more LIDAR devices coupled to the vehicle, and update the rendering based on the received data. Updating the rendering includes updating an object rendering of an object in the environment of the vehicle. The instructions further cause the device to provide the updated rendering for display on a display coupled to the vehicle.
US12283983B2
A bottle opening phone case device capable of opening capped and corked bottles includes a shell, which defines an interior space and which has a front that is open. A phone is insertable into the shell to couple the shell to the phone. A plurality of apertures is positioned in the shell, with each aperture aligning with an associated operative element of the phone. A corked bottle opener, which is hingedly attached to the shell, is selectively positionable in a stowed configuration and a deployed configuration. In the stowed configuration, the corked bottle opener substantially abuts the shell. In the deployed configuration, the corked bottle opener is substantially perpendicular to the shell. With the shell grasped in a hand of a user, the user is positioned to use the corked bottle opener to remove a cork from a corked bottle.
US12283981B2
A method and apparatus are provided. an indication of a first uplink resource allocation of resource blocks for a transmission on a first carrier, and an indication of a second uplink resource allocation of resource blocks for a transmission on a second carrier are received. An indication of a downlink allocation for receiving a downlink signal is further received. A higher order intermodulation product, which is co-located with a lower order intermodulation product for the first and second allocations resulting from any respective higher order and lower order transceiver nonlinearities is identified. A determination is then made as to whether the co-located higher order intermodulation products have a region of overlap with the downlink allocation. When the co-located higher order intermodulation products have a region of overlap with the downlink allocation, adjustments in the operation are made to account for the overlap of the higher order intermodulation product and the downlink allocation.
US12283980B2
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a network node may precode communications with a precoding configured to improve non-linearity (NL). Some aspects more specifically relate to a user equipment (UE) obtaining power amplifier (PA) NL coefficients associated with NL of PAs of a network node. The UE may transmit an indication of the PA NL coefficients to the network node, which may use the indication to select precoding configured to improve reception of communications transmitted with PA NL or to improve decoding of communications transmitted using the precoding.
US12283972B2
Example implementations include a method of optimizing irregular error correction code components in memory devices, a method including obtaining one or more code rate parameters including a payload size parameter, a group size parameter, and a redundancy parameter generating a first number of first code component blocks associated with a first error correction capability, and a second number of code component blocks associated with a second error correction capability aligning the first code component blocks and the second code component blocks to the group size parameter aligning the first code component blocks and the second code component blocks to a code component length constraint, and generating, in accordance with an optimization metric based on the first error correction capability and the second error correction capability, first optimized code components based on the first code component blocks and second optimized code components based on the second code component blocks.
US12283970B2
A device having a digital-to-analog converter (DAC) data generator circuit to perform a function upon an event and generate digital DAC data based on the function and the event, and a DAC circuit to generate an analog waveform signal from the digital DAC data.
US12283967B2
An analog-to-digital converter (ADC) includes a first ADC stage with a first sub-ADC stage configured to sample the analog input voltage in response to a first phase clock signal and output a first digital value corresponding to an analog input voltage in response to a second phase clock signal. A current mode DAC stage is configured to convert the analog input voltage and the first digital value to respective first and second current signals, determine a residue current signal representing a difference between the first and the second current signal, and convert the residue current signal to an analog residual voltage signal. A second ADC stage is coupled to the first ADC stage to receive the analog residual voltage signal, and convert the analog residue voltage signal to a second digital value. An alignment and digital error correction stage is configured to combine the first and the second digital values.
US12283964B2
Provided are a phase-locked loop frequency synthesizer and control method therefor. The phase-locked loop frequency synthesizer includes: a voltage-controlled oscillator configured to generate a microwave signal; a directional coupler configured to: divide the microwave signal into a primary signal and a coupling signal, and transmit the primary signal into a transmitter of the paramagnetic resonance spectrometer to enter a resonator; an automatic frequency controller connected to the resonator and configured to: generate a first oscillation signal and a second oscillation signal, generate a frequency deviation signal, and generate a frequency setting signal based on the frequency deviation signal; and a phase-locked loop controller connected to the directional coupler, the voltage-controlled oscillator, and the automatic frequency controller and configured to: generate a low-phase-noise signal and control the voltage-controlled oscillator.
US12283944B2
Acoustic resonator devices, filters, and methods are disclosed. An acoustic resonator includes a substrate, a lithium niobate plate having front and back surfaces, wherein Euler angles of the lithium niobate plate are [0°, β, 0°], where β is greater than or equal to 0° and less than or equal to 60°. An interdigital transducer (IDT) is formed on the piezoelectric plate.
US12283936B2
Systems and methods combine a test signal with a wanted (downlink or uplink) signal at an input of a duplexer of a communication device, and receive the test signal at an output of the duplexer. The test signal may include a radio frequency signal having less power than the wanted signal to avoid interference, or a digital signal that is added to or extracted from the wanted signal when the wanted signal does not have a radio frequency. A processor of the communication device causes the duplexer to operate in a tuning state (e.g., to transmit signals having a transmission frequency and receive signals having a receive frequency). The measurement system determines a difference or ratio in power between the test signal at the duplexer output and the duplexer input, and adjusts the tuning state based on the difference or ratio (e.g., to decrease or minimize the difference or ratio).
US12283933B2
An electronic device is provided. The electronic device includes a communication circuit, a display, at least one sensor, and at least one processor. The at least one processor may be configured to obtain sound data regarding a surrounding environment from a wearable electronic device through the communication circuit, obtain sensor data through the at least one sensor, identify whether the surrounding environment matches one of a plurality of preset contexts, based on the sound data and the sensor data, and perform at least one of transmitting, to the wearable electronic device, a signal for controlling the wearable electronic device through the communication circuit or displaying a notification message on the display, based on the matching context, a state of the display, or whether the wearable electronic device is outputting a sound, in response to identifying that the surrounding environment matches one of the plurality of preset contexts.
US12283928B2
A circuit may include a two-stage feedforward compensated operational transconductance integrated amplifier, and the two-stage feedforward compensated operational transconductance integrated amplifier may include an input terminal, an output terminal, a signal path between the input terminal and the output terminal, the signal path comprising a first signal path gain stage and a second signal path gain stage, and ripple rejection circuitry coupled between the input terminal and an intermediate node of the signal path located between the first signal path gain stage and the second signal path gain stage. The ripple rejection circuitry may include a first ripple rejection circuitry gain stage coupled at its input to the input terminal and coupled at its output to an input terminal of a chopper circuit, a notch filter coupled at its input to an output terminal of the chopper circuit, and a second ripple rejection circuitry gain stage coupled at its input to an output terminal of the notch filter and coupled at its output to the intermediate node.
US12283922B2
A manufacturing method for a compound semiconductor device, a semiconductor laminate structure, including an electron transit layer and an electron supply layer that are formed from compound semiconductor. A source electrode, a gate electrode, and a drain electrode are provided above the semiconductor laminate structure and arranged in a first direction. A first insulating film having a first internal stress is formed over the semiconductor laminate structure and between the gate electrode and the drain electrode. A slit extending in the first direction is defined in the first insulating film. An amplifier with a compensating circuit compensates distortion of an input signal of the semiconductor device.
US12283916B2
A bridge that may include a first photovoltaic (PV) panel holder, a second PV panel holder; and a body. The body is movably coupled, via a first interface, to the first PV panel holder and is detacheably coupled to the second PV panel holder, wherein the body is configured to move between a first position to a second position when the second PV panel holder is detached from the body, wherein when positioned at the second position, a portion of the body extends above the first PV panel holder.
US12283912B2
The disclosed Infrastructureless™ Data Center is a green-on-green technology. In an embodiment, an example Infrastructureless™ Data Center includes an Infrastructureless™ base node including a photovoltaic (PV) panel assembly. The Infrastructureless™ Data Center further includes a variety of proprietary computing components attached to the Infrastructureless™ base node including some or all of compute, memory, network, power and storage assemblies that, when attached to the Infrastructureless™ base node, create an Infrastructureless™ Data System. Infrastructureless™ Data Systems of similar configurations can be grouped together to form Infrastructureless™ Clusters. Multiple Infrastructureless™ Clusters can be grouped together to form an Infrastructureless™ Data Center of any size. In some embodiments, the Infrastructureless™ Data Center is electrically self-sufficient, e.g., carbon neutral, and does not need to be connected to an external power grid. In other embodiments, the Infrastructureless™ Data Center is carbon negative and can supply unused electricity to an external power grid.
US12283905B2
A controller and an interleaved switching method for a converter for a polyphase connected inductive load including a method for operating: at least a first drive circuit and a second drive circuit in parallel, each connected to one or more phases of the polyphase connected inductive load.
US12283904B2
A motor control device according to the present disclosure is a motor control device configured to control voltage signals of a plurality of phases, the voltage signals being applied to an alternating-current motor, the motor control device including: a differential-value calculation unit configured to calculate the time differential value of a virtual line connecting peak values of each of phase voltage signals that are the voltage signals of the respective phases, the voltage signals being input to the alternating-current motor; a wavelength calculation unit configured to calculate the wavelength of each phase voltage signal input to the alternating-current motor from the time differential value; and a switching-signal generation unit configured to generate, based on the calculated wavelength, a signal that switches the phase of the alternating-current motor to which alternating-current voltage is applied.
US12283895B2
An integrated power conversion apparatus for an electric vehicle according to the present disclosure includes a first H-bridge converter with one side connected to a high voltage battery; a three-winding transformer in which a primary winding is connected to the other side of the first H-bridge converter; a second H-bridge converter with one side which is connected to a secondary winding of the three-winding transformer; an AC-DC converter in which one side is connected to the other side of the second H-bridge converter and the other side is selectively connected to a motor or a power system; and a low voltage stage converter in which one side is selectively connected to a tertiary winding of the three-winding transformer through a selective switch and the other side is connected to a low voltage battery.
US12283893B2
A novel converter circuit topology is disclosed. The converter circuit has a bridge circuit, a transformer, and a half-bridge current-doubler rectifier. An input end of the bridge circuit is connected to an input voltage node of the converter circuit. A reference end of the bridge circuit is connected to an output voltage node of the converter circuit. Opposing ends of a primary winding of the transformer are connected to bridge nodes of the bridge circuit. A secondary winding of the transformer serves as current-doubler inductors of the half-bridge current-doubler rectifier. A tap of the secondary winding is connected to the reference end of the bridge circuit.
US12283891B1
A system to deliver auxiliary or startup current at a low voltage side from a higher voltage input side is provided which comprises a SIDAC or voltage-breakover switch and an inductor to transfer energy from the high voltage input side to the low voltage side. The system further comprises capacitors at the high voltage input and low voltage sides. The SIDAC or voltage-breakover switch turns on when the voltage across it exceeds a specific value and initiates a current pulse through the inductor for transferring energy from the high voltage input side capacitor to the low voltage side. The voltage breakover rating of the SIDAC or voltage-breakover switch is selected to be in between the voltage levels of the high voltage input side and the low voltage side.
US12283881B1
An improved distributed-output multi-cell-element power converter utilizes a multiplicity of magnetic core elements, switching elements, capacitor elements and terminal connections in a step and repeat pattern. Stepped secondary-winding elements reduce converter output resistance and improve converter efficiency and scalability to support the high current requirements of very large scale integrated (“VLSI”) circuits. Some embodiments of the multi-cell converter comprise integrated secondary-side switching devices comprising control circuitry that monitors circuit conditions to determine when the switching device is to be ON and OFF, thereby eliminating the need for secondary-side switch control signals and signal buses, primary-to-secondary interface circuitry and centralized drive circuitry.
US12283880B2
A T-type buck-boost power factor correction (PFC) rectifier (TBPR) comprises a power inductor, first and second storage capacitors, and first, second and third bi-directional switches. The first bidirectional switch connects a power supply input to a first end of the power inductor, the second bidirectional switch connects the first end of the power inductor to a first end of the first capacitor and the third bidirectional switch connects the first end of the power inductor to a first end of the second capacitor. At the same time, the second end of the first capacitor, the second end of the second capacitor and the second end of the power inductor are connected to a common node.
US12283879B2
A short circuit regulating device and a modular multi-level converter comprising the same are disclosed. The short circuit regulating device according to each embodiment of the present disclosure includes an energization block energizably connected to the capacitor assembly and a shorting block contacting or spaced apart from the energization block. Each face of the energization block and the shorting block facing each other is in contact with each other or separated from each other. The shorting block is coupled to the support portion. A cam member is rotatably coupled to the support portion, and an elastic member elastically supports the energization block and the shorting block. Therefore, contact and separation between the energization block and the shorting block can be performed by rotation of the cam member.
US12283873B2
The disclosed apparatus, system, and techniques described herein allow pole retention hardware of the electric motor to also function as a cooling manifold for removing heat generated by the electrical coils. A pole retainer apparatus can include a pole retainer for retaining a pole to a hub. The pole retainer can include a proximal end mounted on the hub and a distal end. The pole retainer can include a channel extending through the pole retainer from the proximal end of the pole retainer mounted on the hub to the distal end of the pole retainer. The apparatus can include a mount located at the distal end of the pole retainer and configured to retain the pole on the hub. The apparatus can include a fluid transfer duct connected to the mount. The cooling system can be employed on TORUS Axial Flux Permanent Magnet motors, and various other motor designs.
US12283871B2
Power plant having generator with stator and rotor rotating in opposite directions and comprising rotor generator linear gear and stator generator linear gear positioned in opposite directions to one another relatively to generator axis consisting of rotor shaft and stator shaft, rotor generator impeller and stator generator impeller in contact with rotor generator linear gear and stator generator linear gear, and have rotational motion in opposite directions, at least one carrying motor allowing lifting the mechanism up by motor linear gear, sensor groups detecting location of the mechanism, battery and/or power supply and/or electricity grid providing electrical energy for the system, brush-slip ring system and mechanism phase output for drawing out electricity generated in said generator, a control unit controlling accelerating, decelerating and stopping actions of said mechanism of which location is detected by mechanism phase output and sensor groups and carrying motor and motor drive circuit preforming said actions.
US12283865B2
Notch bottom parts 152a, 152b are arranged side-by-side with terminal accommodation boxes 100a, 100b in a circumferential direction of an insulator 134, and a routing direction of a pair of coil ends 44a inside the terminal accommodation boxes 100a, 100b is directed to a direction intersecting with an insertion direction of flat-type male terminals T1, T2. Accordingly, at the time of inserting the flat-type male terminals T1, T2 into the terminal accommodation boxes 100a, 100b, an unreasonable force is suppressed from being applied to the pair of coil ends 44a, and, as a result, a defect such as disconnection of the pair of coil ends 44a can be prevented from occurring. In addition, it is possible to orderly route the pair of coil ends 44a on the insulator 43 via the notch bottom parts 152a, 152b, and, as a result, a short circuit with another coil 44 can be prevented.
US12283854B2
A motor, a compressor and a refrigeration device are provided. The motor has a stator and a rotor. The stator has a stator core and a winding. The stator core is provided with multiple stator protruding teeth. The winding are wound on the teeth. The rotor has a rotor core and a permanent magnet. The permanent magnet is arranged on the rotor core. A ratio of the number of the stator protruding teeth to the number of phases of the winding is adaptable to adjust the strength of a demagnetization reverse magnetic field generated by energizing the winding.
US12283850B2
A 3D printed metal coil for an electrical machine. The 3D printed coil has a plurality of turns and is configured to fit within a slot in an electrical machine. A cross-sectional shape of successive turns of the plurality of turns varies such that a portion of each turn forms a part of an external surface of the metal coil, the external surface forming an interface with a side of the slot.
US12283841B2
Various modular systems including a power unit are shown. In one example, a power unit includes a solar panel, a power storage device and one or more power outlet interfaces. One of the surfaces of the power unit includes a coupling mechanism that permits that power unit to couple with modular storage units. In one embodiment, the modular system includes a frame and wheels coupled to the frame to permit the power unit to be more easily transported.
US12283833B2
A stylus includes a charging circuit, a battery, a power management integrated circuit, and a reset circuit. A charging port of the charging circuit and the battery are electrically connected to the power management integrated circuit through the reset circuit. The reset circuit is configured to: disconnect a path between the charging port and the power management integrated circuit and disconnect a path between the battery and the power management integrated circuit when the charging port is powered on, and connect the path between the charging port and the power management integrated circuit and connect the path between the battery and the power management integrated circuit after a specific period of time.
US12283831B2
An electric vehicle battery system is provided. In some embodiments, the electric vehicle battery system can comprise a battery pack comprising a first battery and a second battery. In various embodiments, a first bidirectional direct current to alternating current (DC-AC) converter can be electrically coupled to the first battery and to a first bidirectional high-voltage (HV) alternating current to direct current (AC-DC) converter. In various implementations, a second bidirectional DC-AC converter can be coupled to the second battery and to a second bidirectional HV AC-DC converter. In further embodiments, and a power factor correction AC-DC module can be electrically coupled to the first bidirectional HV AC-DC converter via a first switch and the second bidirectional HV AC-DC converter via a second switch.
US12283830B2
According to certain embodiments, an electronic device comprises: a display configured to perform a scanning operation in a scanning operation frequency range; a battery; a wireless charging antenna configured to induce a current when proximate to wireless charging signal in a frequency range adjacent to the scanning operation frequency range, and wherein the induced current charges the battery; a first flexible printed circuit board disposed between the wireless charging antenna and the battery and connected to the display; a second flexible printed circuit board disposed in parallel with the first flexible printed circuit board; and at least one shielding sheet disposed between the wireless charging antenna and the first printed circuit board.
US12283828B2
Embodiments disclosed herein may generate and transmit power waves that, as result of their physical waveform characteristics (e.g., frequency, amplitude, phase, gain, direction), converge at a predetermined location in a transmission field to generate a pocket of energy. Receivers associated with an electronic device being powered by the wireless charging system, may extract energy from these pockets of energy and then convert that energy into usable electric power for the electronic device associated with a receiver. The pockets of energy may manifest as a three-dimensional field (e.g., transmission field) where energy may be harvested by a receiver positioned within or nearby the pocket of energy.
US12283824B2
An electronic device and a control method for the electronic device are provided, and relate to the field of wireless charging technologies, to improve compatibility of a power receiving terminal device in wireless charging with a power transmitting terminal device by improving ASK communication quality. The electronic device includes a device circuit (50), a voltage conversion circuit (203), a rectifier circuit (202), a resonant circuit (201), and a modulation circuit (204). The resonant circuit (201) includes a resonant inductor (L2) and a resonant capacitor control circuit (ci1) connected in series to the resonant inductor (L2). A first end of the resonant inductor (L2) is coupled to the rectifier circuit (202), a second end of the resonant inductor (L2) is coupled to a first end of the resonant capacitor control circuit (ci1), and a second end of the resonant capacitor control circuit (ci1) is coupled to the rectifier circuit (202).
US12283818B1
A method and system for mitigating low-frequency oscillations of a power system network (PSN). The method includes receiving multiple data sets from the PSN, comprising values of terminal voltage, a real power, and a reactive power. The method further employs the multiple data sets to a fuzzy c-means clustering technique, a deep learning technique and a whale optimization algorithm to generate a pair of parameter values for a power system stabilizer controlling a steady-state of the power system network.
US12283813B1
A non-transitory computer-readable medium has instructions that, when executed by processing circuitry, are configured to cause the processing circuitry to perform operations that include determining net electric power consumption associated with a first consumer, determining that the net electric power consumption associated with the first consumer is below a threshold level, reducing central electric power distributed from a central electric power source to the first consumer to obtain additional central electric power in response to determining that the net electric power consumption associated with the first consumer is below the threshold level, and distributing the additional central electric power to a second consumer in response to reducing the central electric power distributed to the first consumer.
US12283810B2
The object of the invention is interference filter arrangements with surge protection having, an input for a conductive phase and a neutral phase of a three-wire alternating-current voltage system, an output for a protected conductive phase and a protected neutral phase of a three-wire alternating-current voltage system, at least one terminal for a protective earth, at least one first coil arranged as a filter element between the input of the conductive phase and the output of the protected conductive phase, at least one second coil arranged as a filter element between the input of the neutral phase and the output of the protected neutral phase, at least one first three-pole gas-filled surge arrester arranged with its two external poles parallel to the first coil, at least one second three-pole gas-filled surge arrester arranged with its two external poles parallel to the second coil.
US12283808B2
Device for electrolysis from photovoltaically supplied power and a method of operating such a device
The disclosure relates to a device and associated method for electrolysis from photovoltaically generated DC power, including an electrolyzer and a DC/DC converter. The DC/DC converter feeds DC power to the electrolyzer, the DC power is generated by a photovoltaic (PV) sub-generator connected to the DC/DC converter. The PV sub-generator is connected to the DC/DC converter via a first disconnector that is coupled to an isolation monitoring structure in such a way that closure of the first disconnector requires a successful check for sufficient isolation of the PV sub-generator. The PV sub-generator has a main string and a second disconnector arranged between the main string and the first disconnector. The second disconnector is coupled to a fault current monitoring circuit in such a way that the second disconnector is opened in the event that a predefinable limit value of the fault current is exceeded.
US12283803B2
An electrical device enclosure is provided that includes an electrical device; a telescoping support member having the electrical device supported thereon; an electrical device region, the telescoping support member being configured to move the electrical device into a stored position in a first space defined in the electrical device region and to move the electrical device into a deployed position outside of the first space; and a hood pivotally connected to the electrical device for movement between a hooded position and an unhooded position. The hood and electrical device region have cooperating surfaces, the cooperating surfaces being configured and positioned so that movement of the electrical device to the stored position moves the hood into sealed contact with the electrical device to define a weather-tight space around the electrical device.
US12283799B2
A high-voltage overhead electric transmission line extends from a first electrical substation to a second electrical substation and includes at least one “T” junction that forms a joint with three sections A first section and a second section allow connection between the first and the second electrical substations. A third section allows connection to the high-voltage overhead electric transmission line of a user or a third electrical substation or primary substation. The at least one “T” junction has a first switchgear unit configured to allow grid reconfigurations and installed on the first section, and a second switchgear unit configured to allow grid reconfigurations and installed on the second section. Each switchgear unit has a plurality of switchgear unit poles. Each switchgear unit pole is associated with a respective phase of the high-voltage overhead electric transmission line and has a line circuit breaker and at least one line disconnector.
US12283794B2
A semiconductor structure comprising a matrix having a first cubic Group-III nitride with a first band gap, and a second cubic Group-III nitride having a second band gap and forming a region embedded within the matrix. The second cubic Group-III nitride comprises an alloying material which reduces the second band gap relative to the first band gap, a quantum wire is defined by a portion within the region embedded within the matrix, the portion forming a one-dimensional charge-carrier confinement channel, wherein the quantum wire is operable to exhibit emission luminescence which is optically polarised.
US12283781B2
A ganged connector assembly includes: a housing; a plurality of first coaxial connectors mounted in the housing; a plurality of first coaxial cables, each attached to a respective one of the plurality of first coaxial connectors; and a second coaxial cable electrically connected with a first one of the first coaxial connectors, the second coaxial cable configured to transmit AISG signals to the first one of the first coaxial connectors.
US12283780B1
An electrical receptacle including a body having a plurality of electrical connections, a device face connected to the body and movable with respect to the body, a plurality of electrical plug contacts positioned behind the device face, and wherein the electrical plug contacts retain an electrical plug prong at a first tension when the device face is in a first position and the electrical plug contacts retain the electrical plug prong at a second tension when the device face is in a second position.
US12283770B2
An electronic module for a modular patient care system is disclosed. The electronic module can include a housing having an attachment side configured to releasably attach to an adjacent electronic module. A latch mechanism can be configured to engage a catch member on the adjacent electronic module to secure the attachment side to the adjacent electronic module. An electrical connector positioned on the attachment side can be configured to electrically connect to an adjacent electrical connector on the adjacent electronic module. A sensor coupled to the housing can be configured to detect movement of the latch mechanism indicative of at least one of engagement or disengagement of the latch mechanism from the adjacent electronic module.
US12283762B2
The invention provides an inductor (1) comprising at least one first conductive layer (4a) comprising at least one first turn (5) of conductive material and at least one second conductive layer (4b) comprising at least one second turn (5) of conductive material, at least one conductive bridge (7) connecting the first and second turns (5), a layer of insulating material (6a) being interposed at least partially between the first and second turns (5), the first and second turns (5) being at least partially superimposed in the stacking direction (Z) of said layers (4a, 4b, 6a), characterized in that, in the area of superimposition of said turns, the width (I1) of the section of the first turn (5, 4a) is greater than the width (I2) of the section of the second turn (5, 4b).
US12283759B2
An antenna module (10) includes a ground electrode (30) in which a slit (33) is formed in such a manner as to form an opening along a perimeter of the ground electrode, a first antenna (110) and a second antenna (110A) arranged in or on the ground electrode (30), and a coupling reducing electrode (200) connected to the ground electrode (30) within the slit (33). The slit (33) is formed on a path leading from the first antenna (110) to the second antenna (110A) along the perimeter of the ground electrode. The coupling reducing electrode (200) includes a first conductor (220) having a length corresponding to a first frequency and a second conductor (230) having a length corresponding to a second frequency, which is higher than the first frequency.
US12283758B2
Examples disclosed herein describe an antenna with antenna elements that may be selectively activated and deactivated to define active apertures. The active apertures may be of different shapes and sizes. An antenna may include one active aperture or multiple active apertures at a point in time. These one or more active apertures may be reconfigured, e.g., by deactivating the active antenna elements and activating other antenna elements.
US12283752B2
The present disclosure belongs to the technical field of OAM antennas, and provides a frequency re-configurable OAM antenna in S band and a frequency reconfiguration method. The OAM antenna includes a lower dielectric substrate and multiple array units. Each array unit includes a metal patch, an upper dielectric substrate, an outer loop, an inner loop, a coaxial feeder, four metal probes, and four diodes. In the present disclosure, bias states of all the diodes of each array unit are controlled by applying a voltage; when all the diodes are in forward bias states, the antenna works at a high frequency; and when all the diodes are in reverse bias states, the antenna works at a low frequency. The frequency re-configurable OAM antenna in S band in the present disclosure has features of frequency reconfiguration and two OAM radiation modes, and has a stable gain over a broadband.
US12283751B2
Disclosed is a quasi-omnidirectional antenna having three array faces, wherein each of the three array faces has a radiator array having a plurality of radiator columns. Each of the corresponding radiator columns on the radiator arrays are coupled together to a single pair of antenna ports, one per polarization. This results in a service beam having three gain lobes that can be swept in unison in a scan. By scanning the service beam, the antenna may enable a high-gain connection to a mobile device, emulating a high gain omnidirectional antenna. Further disclosed is a variation having four array faces spaced 90 degrees apart, which offers additional performance benefits.
US12283746B2
An aircraft-mounted mobile communicator for communicating with one or more satellites or base stations is disclosed. The aircraft-mounted mobile communicator includes a radome structure and one or more antenna elements embedded within or proximate to a shell of the radome structure that maximizes an aperture of the one or more antenna elements, wherein the one or more antenna elements are configured to operate over one or more frequency bands.
US12283743B2
A single feed antenna design is conducted on a radiator of a specific shape (for example, a strip radiator or a slot radiator) to excite a plurality of antenna modes. For example, performing a feed design on a strip radiator may excite a CM wire antenna mode and a DM wire antenna mode. For another example, performing a feed design on a slot radiator may feed a CM slot antenna mode and a DM slot antenna mode. The antenna design may be used to cover a plurality of frequency bands when an antenna is miniaturized.
US12283742B2
An antenna mounting bracket for pivotably mounting a directional antenna to a fixed structure, the antenna mounting bracket comprising a fixed part arranged to be attached to the fixed structure and a pivotable part arranged to hold the directional antenna, wherein the pivotable part is pivotably attached to the fixed part about a first pivoting axis A, and where a pivoting angle of the pivotable part relative to the fixed part is arranged to be controlled by an alignment member comprising a differential screw mechanism.
US12283741B2
A pass-through antenna mount for a structure includes a base to be placed against an external wall of the structure and a shaft that extends from the base through an opening in the wall. The base defines an aperture therethrough. The shaft extends away from the base and defines a hollow channel extending along a length thereof. The channel is generally aligned with the aperture in the base. The shaft includes a neck portion and an adjacent body portion. The neck portion is configured to accept a fastener and the body portion defines a cable opening in a wall thereof. The cable opening fluidly communicates with the hollow channel. The antenna mount accepts an antenna mounted to the base, where the antenna cable(s) passes through the shaft and exits through the cable opening of the shaft's body portion, thereby taking a tortuous path through the antenna mount.
US12283737B2
An electromagnetic wave guidance and beam reshaping structure is favorable to incorporate a radiation source antenna into an energy focusing system. The electromagnetic wave guidance and beam reshaping structure includes a substrate, a plurality of metal patterns and a plurality of hollow structures. The substrate includes a central portion and a peripheral portion that surrounds the central portion. The plurality of metal patterns are disposed on the central portion. The plurality of hollow structures are disposed in the peripheral portion. The metal patterns are axisymmetrically arranged with respect to a central axis of the substrate, and the hollow structures are axisymmetrically arranged with respect to the central axis of the substrate.
US12283731B2
Methods and systems are provided for a redox flow battery system. In one example, the redox flow battery is adapted with an additive included in a battery electrolyte and an anion exchange membrane separator dividing positive electrolyte from negative electrolyte. An overall system cost of the battery system may be reduced while a storage capacity, energy density and performance may be increased.
US12283727B2
Hydrogen-producing fuel cell systems and methods of operating the same. The methods include initiating supply of a stored hydrogen stream, which includes stored hydrogen gas, to a fuel cell stack. Prior to the initiating, the stored hydrogen gas is stored in a low-pressure hydrogen storage tank at a hydrogen storage pressure. The methods also include generating an electrical power output from the stored hydrogen gas with the fuel cell stack. The methods further include, during a supply time interval that is subsequent to the initiating, monitoring a hydrogen supply variable that is indicative of flow of the stored hydrogen stream to the fuel cell stack. The methods also include detecting a change in the hydrogen supply variable and responding to the detecting. The systems include a controller that is programmed to perform the methods.
US12283717B2
The present application provides a composite separator, an electrochemical energy storage apparatus, and an electrical apparatus. The composite separator provided in a first aspect of the present application may comprise: a first base film and a second base film; and an anode protection layer located between the first base film and the second base film in a thickness direction of the composite separator, for capturing transition metal ions. The anode protection layer for capturing transition metal ions may be arranged between the first base film and the second base film to prevent the anode protection layer from falling off from an outer surface of the base films during prolonged use, so that the anode protection layer can have more stable anode protection effects in prolonged use of the electrochemical energy storage apparatus, and improve the application performance of the electrochemical energy storage apparatus.
US12283710B2
A battery cell includes: an electrode assembly; a battery case accommodating the electrode assembly and an electrolyte; and a gas discharging portion disposed between the electrode assembly and the battery case, and opening and closing a flow path based on pressure within the battery case, wherein the gas discharging portion includes: a moving member being moved in the flow path; a plurality of elastic members each elastically supporting the moving member; and a plurality of support members each disposed between the moving member and the elastic member, and in point contact with the moving member.
US12283694B2
Disclosed herein is a porous substrate having silver and optionally silver oxide and a silver sulfide coating. Also disclosed herein is a battery having a cathode, an anode, and a separator between the cathode and the anode. The cathode includes a substrate having silver and optionally silver oxide and a silver sulfide coating. Also disclosed herein is a method of submerging a substrate having silver and optionally silver oxide in a solution of elemental sulfur in dimethyl sulfoxide to form silver sulfide on the surface of the substrate.
US12283690B2
Provided is a lithium secondary battery which includes a positive electrode, a negative electrode, a separator interposed between the positive electrode and the negative electrode, and an electrolyte, wherein the positive electrode includes, as a positive electrode active material, a lithium composite transition metal oxide powder having a layered structure and a nickel content accounting for 50 atm % or more of total transition metals, and wherein the lithium composite transition metal oxide powder has an amount of change in lithium-oxygen (Li—O) interlayer spacing (ΔT1), as represented by Equation (1), of 0 or more: ΔT1=Tf−T0 Equation (1): wherein, in Equation (1), Tf is a Li—O interlayer spacing in the lithium composite transition metal oxide in a fully charged state, and T0 is a Li—O interlayer spacing in the lithium composite transition metal oxide before charging.
US12283682B2
A thermal blocking sheet for reducing the spread of fire or heat, the thermal blocking sheet comprising a first layer and a second layer of expandable graphite. If the thermal blocking sheet is exposed to heat exceeding a threshold temperature the expandable graphite is configured to expand.
US12283671B2
An ESS (Energy Storage System) is disclosed, which includes a sub ESS stack including a plurality of sub ESSs, each having a plurality of battery modules and a battery rack for accommodating the plurality of battery modules; an ESS housing configured to accommodate the plurality of sub ESSs; a sensor installed in the ESS housing to sense at least one of temperature and smoke inside the ESS housing; a first blocking sheet interposed between the sub ESSs adjacent to each other; a fire extinguishing device configured to supply a fire extinguishing agent into the ESS housing; and a cooling device configured to supply a cooling water to the first blocking sheet.
US12283665B2
The present disclosure discloses a high temperature cell system. The cell system may comprise at least two distinct cathode chambers. The cell system may further comprise a separator having a hollow structure enclosed between a first wall and a second wall, wherein the separator is configured to enable ion transfer between the first wall and the second wall. Further the hollow structure of the separator may define at least one anode chamber. The cell system may comprise a base configured to provide a common sealing to the at least two cathode chambers and the separator at one first end and second end respectively.
US12283660B2
Lithium-containing polycrystalline ceramic sheets include grains having an average grain size of less than 5 μm, a relative density greater than 90%, and a thickness of up to 200 μm. In aspects, the lithium-containing polycrystalline ceramic sheets include an outer edge of the sheet that has no height variations greater than 1 mm from baseline in a perimeter trace. In aspects, the lithium-containing polycrystalline ceramic sheets include microstructural features of an outer edge of the sheet are no greater than about ⅓ the thickness of the sheet. In aspects, the lithium-containing polycrystalline ceramic sheets include an outer edge of the sheet that is enriched in lithium relative to a bulk of the sheet.
US12283654B2
The invention relates to Chevrel-phase materials and methods of preparing these materials utilizing a precursor approach. The Chevrel-phase materials are useful in assembling electrodes, e.g., cathodes, for use in electrochemical cells, such as rechargeable batteries. The Chevrel-phase materials have a general formula of Mo6Z8 (Z=sulfur) or Mo6Z18-yZ2y (Z1=sulfur; Z2=selenium), and partially cuprated Cu1Mo6S8 as well as partially de-cuprated Cu1-xMgxMo6S8 and the precursors have a general formula of MxMo6Z8 or MxMo6Z18-yZ2y, M=Cu. The cathode containing the Chevrel-phase material in accordance with the invention can be combined with a magnesium-containing anode and an electrolyte.
US12283653B2
A secondary battery that includes a wound electrode assembly in which a positive electrode, a negative electrode, and a separator disposed between the positive electrode and the negative electrode are wound about a winding axis; and a current collecting tab at a first end of the wound electrode assembly along a direction of the winding axis, wherein the wound electrode assembly has a separator extension portion in which the separator extends more than the positive electrode and the negative electrode toward a second end of the wound electrode assembly along the direction of the winding axis, the second end being opposite the first end, and the separator has a bent shape that protrudes toward an outer peripheral side of the wound electrode assembly at least at a part of the separator extension portion in a sectional view passing through the winding axis.
US12283647B2
A photocurable composition includes quantum dots, quantum dot precursor materials, a chelating agent, one or more monomers, and a photoinitiator. The quantum dots are selected to emit radiation in a first wavelength band in the visible light range in response to absorption of radiation in a second wavelength band in the UV or visible light range. The second wavelength band is different than the first wavelength band. The quantum dot precursor materials include metal atoms or metal ions corresponding to metal components present in the quantum dots. The chelating agent is configured to chelate the quantum dot precursor materials. The photoinitiator initiates polymerization of the one or more monomers in response to absorption of radiation in the second wavelength band.
US12283642B2
Embodiments of the present disclosure relate to a solar cell and a method for producing the same. The solar cell includes: a substrate having a first textured surface, a plurality of sheet-shaped anti-reflection films, and a plurality of grid lines. A plurality of grid-line areas spaced from each other are formed on the first textured surface, and each grid-line area has a second textured surface. One or more sheet-shaped anti-reflection films of the plurality of sheet-shaped anti-reflection films are formed on a portion of the second textured surface of each grid-line area. Each grid line of the plurality of grid lines is formed on a respective grid-line area, and each grid line is in contact with the one or more sheet-shaped anti-reflection films and with a remaining portion of the second textured surface of the respective grid-line area not covered by any sheet-shaped anti-reflection films.
US12283634B2
The semiconductor device includes a first insulating layer, a second insulating layer, an oxide semiconductor layer, and first to third conductive layers. The first conductive layer and the second conductive layer are connected to the oxide semiconductor layer. The second insulating layer includes a region in contact with the oxide semiconductor layer, and the third conductive layer includes a region in contact with the second insulating layer. The oxide semiconductor layer includes first to third regions. The first region and the second region are separated from each other, and the third region is located between the first region and the second region. The third region and the third conductive layer overlap with each other with the second insulating layer located therebetween. The first region and the second region include a region having a higher carbon concentration than the third region.
US12283627B2
A semiconductor device includes a semiconductor layer having a first surface and a second surface, a unit cell including a diode region of a first conductivity type formed in a surface layer portion of the first surface of the semiconductor layer, a well region of a second conductivity type formed in the surface layer portion of the first surface of the semiconductor layer along a peripheral edge of the diode region, and a first conductivity type region formed in a surface layer portion of the well region, a gate electrode layer facing the well region and the first conductivity type region through a gate insulating layer and a first surface electrode covering the diode region and the first conductivity type region on the first surface of the semiconductor layer, and forming a Schottky junction with the diode region and an ohmic junction with the first conductivity type region.
US12283620B2
A method for manufacturing a semiconductor device includes: preparing a semiconductor substrate; arranging a mask on one surface of the semiconductor substrate; forming opening portions in the mask by patterning so as to expose planned formation regions of the semiconductor substrate where trenches are to be formed; forming the trenches, which extend in a longitudinal direction along a planar direction of the semiconductor substrate, in the semiconductor substrate adjacent to the one surface, by performing a first etching using the mask; forming a rounded portion at an opening end portion of each of the trenches by performing a second etching in a state where the mask is arranged and under a condition that a selectivity of the mask is higher than that of the semiconductor substrate; and arranging a gate insulating film and a gate electrode in each of the trenches, thereby to form trench gate structures.
US12283598B2
An electronic device is disclosed, which includes: a substrate; a first metal layer, disposed on the substrate and having a light shielding region and a light passing region; an electrode layer, disposed on the substrate, wherein the first metal layer is disposed between the substrate and the electrode layer; and a light detecting element for detecting a light passing through the light passing region; wherein a first edge of the light shielding region of the first metal layer has a first slope, and the first slope is less than 90°.
US12283585B2
An optoelectronic device package includes a first redistribution layer (RDL), a first electronic die disposed over the first RDL, wherein an active surface of the first electronic die faces the first RDL. The optoelectronic device package further includes a second electronic die disposed over the first RDL, and a photonic die disposed over and electrically connected to the second electronic die. An active surface of the second electronic die is opposite to the first RDL.
US12283580B2
A display device and a method for manufacturing same are provided. A display device comprises: a first electrode; a second electrode arranged to be spaced apart from and face the first electrode; a first insulation pattern having at least partial region arranged to overlap the first electrode and having a first side surface spaced apart from a first end portion of the first electrode; a second insulation pattern having at least a partial region arranged to overlap the second electrode and having a second side surface spaced apart from a second end portion of the second electrode facing the first end portion, the second side surface facing the first side surface; at least one uneven pattern provided on the first insulation pattern and the second insulation pattern; and at least one light-emitting element provided between the first insulation pattern and the second insulation pattern and having opposite end portions that are electrically connected to the first electrode and the second electrode, respectively.
US12283577B2
A fan-out semiconductor package includes: a package body including a fan-in area corresponding to a through-hole located therein, a fan-out area surrounding the fan-in area, and a body interconnect structure arranged in the package body corresponding to the fan-out area; a fan-in chip structure located in the through-hole, the fan-in chip structure comprising a first chip, a capacitor chip arranged to be apart from the first chip, and a second chip disposed on both the first chip and the capacitor chip; a redistribution structure arranged on a bottom surface of the package body and a bottom surface of the fan-in chip structure and including a redistribution element extending to the fan-out area; and an interconnect via arranged on a top surface of the package body and electrically connected to the redistribution element in the fan-out area.
US12283571B1
Described is a packaging technology to improve performance of an AI processing system. An IC package is provided which comprises: a substrate; a first die on the substrate, and a second die stacked over the first die. The first die includes memory and the second die includes computational logic. The first die comprises DRAM having bit-cells. The memory of the first die may store input data and weight factors. The computational logic of the second die is coupled to the memory of the first die. In one example, the second die is an inference die that applies fixed weights for a trained model to an input data to generate an output. In one example, the second die is a training die that enables learning of the weights. Ultra high-bandwidth is changed by placing the first die below the second die. The two dies are wafer-to-wafer bonded or coupled via micro-bumps.
US12283568B2
Alignment of devices formed on substrates that are to be bonded may be achieved through the use of scribe lines between the devices, where the scribe lines progressively increase or decrease in size from a center to an edge of one or more of the substrates to compensate for differences in the thermal expansion rates of the substrates. The devices on the substrates are brought into alignment as the substrates are heated during a bonding operation due to the progressively increased or decreased sizes of the scribe lines. The scribe lines may be arranged in a single direction in a substrate to compensate for thermal expansion along a single axis of the substrate or may be arranged in a plurality of directions to compensate for actinomorphic thermal expansion.
US12283563B2
A semiconductor module includes a substrate, a semiconductor die arranged on the substrate, at least one first bond wire loop, wherein both ends of the at least one first bond wire loop are arranged on and coupled to a first electrode of the semiconductor die, and a molded body encapsulating the semiconductor die, wherein a top portion of the at least one first bond wire loop is exposed from a first side of the molded body.
US12283559B2
A semiconductor package includes a conductive pad, a semiconductor die with an aluminum bond pad over a dielectric layer of the semiconductor die, a gold bump on the aluminum bond pad, a first intermetallic layer of gold and aluminum between the aluminum bond pad and the gold bump, a copper ball bond on the gold bump, a second intermetallic layer of copper and gold between the copper ball bond and the gold bump, a copper wire extending from the copper ball bond to the conductive pad, a stitch bond between the copper wire and the conductive pad.
US12283546B2
An integrated circuit includes a strip structure having a front side and a back side. The integrated circuit includes a gate structure on the front side of the strip structure. The integrated circuit includes an isolation structure surrounding the strip structure. The integrated circuit includes a backside via in the isolation structure. The integrated circuit includes a contact over the strip structure, wherein a first portion of the contact extends into the isolation structure and contacts the backside via. The integrated circuit includes a backside power rail on the back side of the strip structure and in contact with the backside via.
US12283541B2
A semiconductor package and a manufacturing method thereof are provided. The semiconductor package includes at least one semiconductor die, an interposer, a molding compound and connectors. The interposer has a first surface, a second surface opposite to the first surface and sidewalls connecting the first and second surfaces. The at least one semiconductor die is disposed on the first surface of interposer and electrically connected with the interposer. The molding compound is disposed over the interposer and laterally encapsulates the at least one semiconductor die. The molding compound laterally wraps around the interposer and the molding compound at least physically contacts a portion of the sidewalls of the interposer. The connectors are disposed on the second surface of the interposer, and are electrically connected with the at least one semiconductor die through the interposer.
US12283537B2
An electronic package is provided in the present disclosure. The electronic package comprises: a heat spreading component; a first electronic component disposed on the heat spreading component; and a second electronic component disposed on the first electronic component, wherein the second electronic component comprises an interconnection structure passing through the second electronic component and electrically connecting the first electronic component. In this way, through the use of the interconnection structure, the heat dissipation of the electronic components in the package can be improved. Also, through the use of the encapsulant, the stacked electronic components can be protected by the encapsulant so as to avoid being damaged.
US12283531B2
A control circuit is included in a first die of a stacked semiconductor device. The first die further includes a transistor that is electrically connected to the control circuit. The transistor is configured to be controlled by the control circuit to selectively block a die-to-die interconnect. In this way, the die-to-die interconnect may be selectively blocked to isolate the first die and a second die of the stacked semiconductor device for independent testing after bonding. This may increase the effectiveness of a testing to identify and isolate defects in the first die or the second die, which may further increase the effectiveness of performing rework or repair on the stacked semiconductor device.
US12283530B2
A method of manufacturing semiconductor testing structure includes providing a substrate; forming a first metal layer on the substrate, wherein the first metal layer comprises a plurality of fingers extending along a first direction; forming a dielectric structure on the first metal layer; and forming a plurality of second metal layers on the dielectric structure.
US12283529B2
In a method of repairing through-electrodes, a plurality of through-electrodes are grouped into a plurality of through-electrode groups. A plurality of redundant through-electrodes are grouped into a plurality of redundant through-electrode groups. Repair paths for the plurality of through-electrodes are searched. When searching the repair paths, in response to a Y-th through-electrode included in an X-th through-electrode group being a defective through-electrode or in response to receiving a first signal from an (X−1)-th through-electrode group, it is determined whether a y-th redundant through-electrode included in an x-th redundant through-electrode group is available for performing signal transmission thereto. In response to the y-th redundant through-electrode being available for performing signal transmission thereto, a second signal input to the Y-th through-electrode is transmitted to the y-th redundant through-electrode. In response to the y-th redundant through-electrode being unavailable for performing signal transmission thereto, the second signal input to the Y-th through-electrode is transmitted to an (X+1)-th through-electrode group.
US12283522B2
A superstrate for planarizing a substrate. The superstrate includes a body having a first side having a contact surface and a second side having a central portion and a peripheral portion surrounding the central portion. The peripheral portion includes a recessed region.
US12283513B2
The present disclosure relates to a ceramic susceptor, and the ceramic susceptor according to the present disclosure includes: an insulation plate on which an electrode is disposed; a shaft connected to the insulation plate; and a power supply rod connected to the electrode and extending through an inner space of the shaft, wherein the insulation plate includes a first through-passage formed through the upper surface and the lower surface thereof and configured to communicate the inner space of the shaft therewith.
US12283504B2
A method of determining a size of a contact area between a first 3D structure and a second 3D structure in an integrated semiconductor sample, includes the following steps: obtaining at least a first cross section image and a second cross section image parallel to the first cross section image, wherein obtaining the first and second cross section images includes subsequently removing a cross section surface layer of the integrated semiconductor sample using a focused ion beam to make a new cross section accessible for imaging, and imaging the new cross section of the integrated semiconductor sample with an imaging device; performing image registration of the obtained cross section images and obtaining a 3D data set; determining a 3D model representing the first 3D structure and the second 3D structure in the 3D data set; and determining a relative overlap of the first 3D structure with the second 3D structure based on the 3D model.
US12283503B2
A method for a substrate measurement subsystem is provided. An indication is received that a substrate being processed at a manufacturing system has been loaded into a substrate measurement subsystem. First positional data of the substrate within the substrate measurement subsystem is determined. One or more portions of the substrate to be measured by one or more sensing components of the substrate measurement subsystem are determined based on the first positional data of the substrate and a process recipe for the substrate. Measurements of each of the determined portions of the substrate are obtained by one or more sensing components of the substrate measurement subsystem. The obtained measurements of each of the determined portions of the substrate are transmitted to a system controller.
US12283501B2
An object transfer device includes: a motor; a motor drive circuit; an encoder that detects a motor output shaft rotation angle; a drive system that transmits motion of the output shaft to an object; an origin sensor that detects arrival of a predetermined site of the drive system interlocked with the object at a predetermined position; a drive circuit-including servo amplifier that records a current position of the object based on detection by the encoder and the origin sensor, and controls the object to a target position; an absolute position holder that acquires an absolute position of the predetermined site based on detection by the encoder at least while the drive circuit is off; and a power saving controller that is bidirectionally communicable with the servo amplifier and can resume servo control with the absolute position as a current position of the predetermined site when the drive circuit is on.
US12283500B2
A direct current (DC) power is supplied to a heating element embedded into a substrate support assembly (SSA). A voltage across the heating element and a current through the heating element is measured as the DC power is supplied to the heating element. A resistance of the heating element is determined based on the measured voltage and current. A temperature measurement for the heating element and/or a zone including the heating element is obtained based on signal(s) of a temperature sensor. A temperature model is updated based on the determined resistance and the obtained temperature measurement. The heating element embedded in the SSA and/or an additional heating element embedded in the SSA or in another SSA is controlled based on the updated temperature model during a substrate process.
US12283486B2
The disclosed technology generally relates to forming a thin film comprising titanium nitride (TiN), and more particularly to forming by a cyclical vapor deposition process the thin film comprising (TiN). In one aspect, a method of forming a thin film comprising titanium nitride (TiN) by a cyclical vapor deposition process comprises forming on a semiconductor substrate a TiN thin film by exposing the semiconductor substrate to one or more cyclical vapor deposition cycles each comprising an exposure to a Ti precursor at a Ti precursor flow rate and an exposure to a NH3 precursor at a NH3 precursor flow rate, after forming the TiN film, subjecting the semiconductor substrate, without further deposition of the TiN thin film, to a post-deposition exposure of NH3 at a second NH3 flow rate.
US12283478B2
There is provided a technique that includes: (a) forming an inhibitor layer on a surface of a first material of a concave portion provided on a surface of a substrate, by supplying a precursor to the substrate to adsorb at least a portion of a molecular structure of molecules constituting the precursor on the surface of the first material of the concave portion, the concave portion being composed of the first material containing a first element and a second material containing a second element different from the first element; (b) growing a film on a surface of the second material of the concave portion by supplying a film-forming material to the substrate having the inhibitor layer formed on the surface of the first material; and (c) forming a hydroxyl group termination on the surface of the first material before performing (a).
US12283476B2
Described herein is a technique capable of selectively forming a thin film on a substrate while suppressing damage to other films of the substrate. According to the technique, there is provided a method of manufacturing a semiconductor device, including: (a) removing a natural oxide film from a surface of a substrate by supplying a first inorganic material to the substrate wherein a first film and a second film different from the first film are exposed on the surface of the substrate; (b) forming an oxide film by oxidizing a surface of the first film by supplying an oxidizing agent to the substrate; (c) modifying the surface of the first film by supplying a second inorganic material to the substrate; and (d) selectively growing a thin film on a surface of the second film by supplying a deposition gas to the substrate, wherein (a) through (d) are sequentially performed.
US12283473B1
Described is a non-radioactive homogenous plasma ion source that is power efficient. The non-radioactive plasma ion source comprises an ion source, an ion source housing for retaining the ion source, a gas inlet chamber having a gas conduit connectable to a gas source, at least one planar electrode for forming an electric field, a mounting head for mounting the non-radioactive plasma ion source device to an external device, and a passageway extending across a longitudinal axis of the non-radioactive plasma ion source device for allowing gas to flow therethrough. The gas inlet chamber has an improved design in that the gas inlet chamber comprises one or more openings in a body of the gas inlet chamber, the one or more openings being spaced such that the gas from the gas source is injected uniformly into the passageway.
US12283469B2
The invention relates to a high-frequency grounding device (40) for use with a vacuum valve for closing and opening a valve opening of a vacuum chamber system, having a grounding band (42) made of a conductive material for discharging electrical charges occurring on the vacuum valve, wherein the grounding band has a first end (41) and a second end (43) and, for grounding the vacuum valve, is designed to be connected at the first end to a valve closure of the vacuum valve, and to be connected at the second end to a component of the vacuum chamber system, wherein the high-frequency grounding device has a correction impedance, wherein the grounding band is coupled to the correction impedance so that a resonant circuit results, which comprises the grounding band and the correction impedance, and the correction impedance has a first element for shifting a resonant frequency of the resonant circuit and/or a second element for reducing a quality of the resonant circuit. The invention additionally relates to a vacuum valve and a vacuum chamber system having such a high-frequency grounding device.
US12283463B2
Systems and methods for multi-level pulsing are described. The systems and methods include generating four or more states. During each of the four or more states, a radio frequency (RF) generator generates an RF signal. The RF signal has four or more power levels, and each of the four or more power levels corresponds to the four or more states. The multi-level pulsing facilitates a finer control in processing a substrate.
US12283459B2
Parts of a pair, in use, are disposed in abutting relation to one another to define a cell for use with an electron microscope, the cell having, disposed on opposite surfaces thereof, a pair of windows, the windows being arranged in spaced relation to one another to define a viewable interior volume of the cell at a region of overlap. A housing is adapted to receive one of the pair of parts and further adapted to define a chamber containing the one of the parts which chamber, in use, is evacuated. An arrangement is adapted, when the one of the parts is received by the housing and is in receipt of a sample and the chamber is evacuated, to position together the one of the pair of parts and the other of the pair of parts.
US12283456B2
A gas reservoir that receives a precursor has a gas-receiving unit which is arranged in a first receiving unit of a basic body and a sliding unit which is arranged movably in a second receiving unit of the basic body. The gas-receiving unit has a movable closure unit for opening or closing a gas outlet opening of the gas-receiving unit. In a first position of the sliding unit, a first opening of a sliding-unit line device is fluidically connected to a first basic body opening and a second opening of the sliding-unit line device is fluidically connected to a second basic body opening. In the second position of the sliding unit, the first opening is arranged at an inner wall of the second receiving unit and the second opening is arranged at the movable closure unit.
US12283448B2
A micro focus X-ray tube is provided. The micro focus X-ray tube has a bonding structure in which a ceramic and a metal without an exhaust pipe are stacked by using a nano electric field emitter of an excellent feature.
US12283447B2
A direct current circuit breaker comprises a mechanical relay in a first supply line configured to conduct electrical current during steady-state operation and an auxiliary relay assembly in parallel with the mechanical relay to define an auxiliary breaker path for conducting electrical current during transient operation of the circuit breaker. The auxiliary relay assembly comprises a power-semiconductor circuit configured for selective current conduction and for bidirectional current blocking when in a non-conductive state. There is also a controller configured to (i) activate the power-semiconductor circuit to conduct in response to a command signal to stop transfer of the electrical power, in order to provide a zero voltage condition under which the mechanical relay is to deactivate; (ii) deactivate the mechanical relay when current is being conducted through the auxiliary breaker path; and (iii) deactivate the power-semiconductor circuit after the mechanical relay is deactivated to stop the transfer of the power.
US12283441B2
A key structure including a bottom plate, a switch element, a keycap, a positioning element, and a linkage rod is provided. The switch element is disposed on the bottom plate. The keycap is disposed on the switch element, and the switch element is located between the bottom plate and the keycap. The positioning element is connected to the bottom plate and located between the bottom plate and the keycap. The linkage rod is disposed between the keycap and the positioning element. The linkage rod has a portion disposed at a position corresponding to a groove, and two opposite sides of the linkage rod are each in contact with the keycap and the positioning element.
US12283437B2
A capacitor 1 includes a capacitor element 3 holding solution between an anode foil 5 and a cathode foil 7 that are wound up with a separator 6 in between, a body case 2 for housing the capacitor element 3, and a sealing member 4 for sealing the body case 2. A part of the separator 6 makes contact, at a plurality of points or over an area, with the face of the sealing member 4 facing the capacitor element 3 so as to rest on that face. The solution contains, dissolved in a lipophilic solvent, deterioration preventing agent that solidifies by oxidation. The solution is supplied through the separator 6 to the sealing member 4 and permeates the sealing member 4, so that a coating 17 resulting from the agent solidifying coats the outer face of the sealing member 4, leaving the solution present in the sealing member 4.
US12283436B2
A disclosed power storage device includes a power storage element, a case with a bottomed cylindrical shape having an opening at one end and housing the power storage element, and a sealing member for sealing the opening. The case has, in a vicinity of the opening, a first pressing portion pressing a side surface of the sealing member and protruding inward of the case, and a gas vent portion disposed nearer to the one end of the case than an apex which is the most protruded point of the first pressing portion. This can provide a power storage device including an explosion-proof mechanism that has high operational reliability and does not impair airtightness.
US12283434B2
A solid electrolytic capacitor element includes an anode body, a dielectric layer formed at the surface of the anode body, and a cathode portion that covers at least a part of the dielectric layer. The cathode portion includes a solid electrolyte layer that covers at least a part of the dielectric layer. The solid electrolyte included in the solid electrolyte layer has a weight reduction ratio of 3% or less when measured through thermogravimetric analysis in which the solid electrolyte is heated to 180° C., is kept at 180° C. for 20 minutes, is cooled from 180° C. to 30° C., and is then heated from 30° C. to 260° C. at a rate of 20° C./min.
US12283424B2
Disclosed herein are methods and compositions directed to a promising class of nanomaterials called organic nanoparticles, or carbon nanodots. The present disclosure provides a facile method for the conversion of biomolecule-based carbon nanodots into high surface area three-dimensional graphene networks with excellent electrochemical properties.
US12283423B2
The present disclosure provides an asymmetric supercapacitor that includes a negative electrode, a positive electrode, an ionic liquid electrolyte, and a separator. The negative electrode includes a tomato leaf activated carbon having a hierarchical porosity disposed on a first carbon cloth. The positive electrode includes a polyaniline disposed on a second carbon cloth; an ionic liquid electrolyte. The separator is located between the positive electrode and the negative electrode, and the ionic liquid electrolyte is present in and on the separator. The supercapacitor may be implemented in a heart pulse rate monitoring system.
US12283421B2
Some examples herein provide a method for generating a magnetic field. The method may include accumulating positive charges at a first electrode; accumulating negative charges at a second electrode; and rotating the first electrode relative to the second electrode so as to induce a relative angular velocity between the positive charges and the negative charges and thus generate a magnetic field. In some examples, the magnetic field may be used for propulsion.
US12283416B2
A superconducting magnet assembly is provided. The magnet assembly includes a magnet and a switch assembly coupled to the magnet. The switch assembly includes a thermosyphon tube configured to carry cryogen therethrough, a switch, a first pressure valve, and a second pressure valve. The switch is configured to switch between a resistive mode and a superconducting mode, wherein the switch is in thermal contact with the thermosyphon tube. The first pressure valve and the second pressure valve are positioned on the thermosyphon tube and configured to control flow of the cryogen in the thermosyphon tube, and the switch is positioned between the first pressure valve and the second pressure valve. The magnet is configured to generate a polarizing magnetic field based on switching of the switch between the resistive mode and the superconducting mode.
US12283414B2
A coil component includes a terminal electrode and a terminal of a wire connected by thermocompression bonding on a bottom surface of a flange portion, to achieve a strong fixing force without the terminal of the wire protruding from the terminal electrode. A terminal of a wire extends along a main surface of a terminal electrode while at least a part of the terminal is disposed in the terminal electrode, and has a top surface positioned on a side opposite to a bottom surface side of a flange portion with respect to the main surface. A fillet surface which rises from the main surface toward the top surface and forms a concave curved surface is on an outer surface of the terminal electrode. The main surface is configured by a solder wettable layer made of tin or a tin alloy as an outermost layer of the terminal electrode.
US12283412B2
The present disclosure provides a manufacturing method of a magnetic element, comprising: forming an insulation layer on an outer side of at least one section of a magnetic column of a magnetic core; forming a metal wiring layer on an outer side of the insulation layer through a metallization process; and dividing at least part of the metal wiring layer into a multi-turn metal winding through a mechanically dividing process.
US12283406B1
An illuminable electrical cord configured to emit light when connected to an electrical power source and an electric device may include a cord bundle. The cord bundle may have a first end and a second end. The first end of the cord bundle may be configured to electrically interface with an electrical power source. The second end of the cord bundle may be configured to electrically interface with the electric device. The cord bundle may include at least one electroluminescent (EL) wire segment. The EL wire segment may be configured to emit light from the cord bundle along at least a portion of the length of the cord bundle as the cord bundle conducts electrical current from the electrical power source.
US12283403B2
An insulated electric wire includes: an exposed portion and a covered portion including the insulation covering, and further includes a water-stopping portion wherein a water-stopping agent is placed over the exposed portion, and part of the covered portion and is adjacent to the exposed portion. The water-stopping portion continuously has: an inter-elemental-wire filling area filled with the water-stopping agent in gaps between conductor elemental wires; an exposed-portion-outer-circumferential area wherein the water-stopping agent covers an outer circumference of the conductor; and a covered-portion-outer-circumferential area wherein the water-stopping agent covers an outer circumference of the insulation covering. In a subject region that is a part of the exposed-portion-outer-circumferential area and is other than a region closer to the covered-portion-outer-circumferential area with a larger outer diameter due to a thickness of the insulation covering, a difference between a maximum and minimum outer diameter is not greater than 12% of the minimum outer diameter.
US12283402B2
A suspension wiring module includes a suspension wiring member including a transmission line main body and at least one coating layer that covers the transmission line main body. At least one section of the suspension wiring member is defined as an exterior section that is provided outside of a cabin of a vehicle. In the exterior section, an arc-shaped groove is formed in an outer coating that is the outermost one of the at least one coating layer.
US12283398B2
Disclosed is a method of manufacturing an insulating sheet, comprising: forming at least a groove on a flat sheet; a first cutting step for cutting a side surface of the groove by irradiating a laser beam to a side surface of the sheet; a second cutting step for cutting the insulating sheet to completely separate the groove from the insulating sheet by irradiating a laser beam from above the groove having the side surface cut; a tape attaching step for attaching a tape to an outer surface of the insulating sheet; and a bending step for bending one end portion of the surface of the insulating sheet having the tape attached toward a place where the tape is attached. It is possible to mass-produce the insulating sheets having a three-dimensional shape, regarded as being difficult to manufacture with a mold.
US12283395B2
A device for separating a core and sheath of cable includes an apparatus delivering the cable along cable feed axis parallel to longitudinal axis of cable. Two knives cut sheath to two portions mechanically dissociated from one another. Each knife cuts sheath over its whole thickness in radial cutting zone with respect to central axis of the cable. Two blockers extend the knives in the direction of the feed axis of the cable and keep the core in position along the feed axis of the cable. At least one ramp extends from each knife in a second direction perpendicular to the radial cutting zone and to the feed axis of the cable. The ramp has an outer surface extending away from the cable feed axis in the first direction when movement takes place in the feed direction of the cable to separate the core and the portions of the sheath.
US12283394B2
Electrical cables and optical waveguides are disclosed as including an electrically insulative foam. The electrically insulative foam can coat at least one electrical conductor of the electrical cable. The electrically insulative foam can coat the optical fiber of the waveguide. The electrically insulative foam can also define a waveguide.
US12283389B2
An adjustable collimator device for collimating a beam of energy emitted from a radiation source is disclosed. The collimator has an elongated plate-like body with a front-end and a rear-end. The collimator has a first set of emission apertures equally spaced around a central axis of the body that defines a zero-degree position. The first set of emission apertures are placed on the rear-end of the body and are configured to receive and sample a beam of energy entering the adjustable collimator device. A second set of apertures are placed proximate the front-end of the body. The second set of apertures are adjustable such that a first of the second set of apertures can be configured to have a first angular offset relative to the zero-axis and a second of the second set of apertures can be configured to have a second angular offset relative to the zero-axis.
US12283383B2
A mobile heat pipe cooled fast nuclear reactor may be configured for transportation to remote locations and may be able to provide 0.5 to 2 megawatts of power. The mobile heat pipe cooled fast reactor may contain a plurality of heat pipes that are proximate to a plurality of fuel pins inside the reactor. The plurality of heat pipes may extend out of the reactor. The reactor may be configured to be placed in a standard shipping container, and may further be configured to be contained within a cask and attached to a skid for easier transportation.
US12283380B2
A somatotype identification method, an acquisition method of health assessment, an apparatus, and a device provided by the present disclosure relates to the technical field of computer. The somatotype identification method includes: acquiring a body image of a user; performing a feature extraction on the body image, to obtain a predicted somatotype feature of the user; and screening a target somatotype category of the user from various somatotype categories according to the predicted somatotype feature.
US12283360B2
An apparatus for use with a medical imaging device (2) operative in conjunction with a contrast injector (11) to perform a contrast enhanced medical imaging procedure. The apparatus includes: an alert output device (32), and at least one electronic processor (10, 20) operatively connected with the alert output device and programmed to: extract image frames from video or screen sharing (17) of a display (13, 24′); screen-scrape injector settings of the contrast injector from the image frames; and output an alert (30) via the alert output device if the screen-scraped injector settings satisfy an alert criterion.
US12283344B1
As one aspect of the present disclosure, an electronic device is disclosed. The electronic device comprises a receiving unit for receiving a command from an external source, a first buffer for storing a first data value, and an operation engine for loading the first data value from the first buffer in response to the command and performing an operation based on a predetermined calculation formula on the loaded first data value, wherein the first data value is at least one of a result data value obtained by the operation engine previously performing an operation based on the predetermined calculation formula or a query data value to be used for an operation based on the predetermined calculation formula.
US12283337B2
Disclosed herein is a sense amplifier. In one aspect, the sense amplifier includes a first pair of cross-coupled transistors and a second pair of cross-coupled transistors coupled to a first port and a second port of the sense amplifier. In one aspect, the sense amplifier includes a first access transistor coupled between a first input line and the first port. In one aspect, the sense amplifier includes a second access transistor coupled between a second input line and the second port. In one aspect, the first pair of cross-coupled transistors includes a first transistor and a second transistor cross-coupled with each other. In one aspect, a source electrode of the first transistor is directly coupled to the first input line, and a source electrode of the second transistor is directly coupled to the second input line.
US12283334B2
Disclosed are a method and an apparatus for memory testing. The method comprises following steps: using a test program group including N test programs to test M dies respectively to generate independent N test data, wherein N and M are positive integers greater than 1; and executing a neural network operation on the N test data to estimate a yield of M dies passing the test program group.
US12283331B2
The present technology includes: a current mirror configured to apply a test current that is generated by a test voltage to a selected word line, among a plurality of word lines, and to generate a copy current by copying the test current; a comparison circuit configured to compare at least one reference current with the copy current to generate a comparison result signal; and a test control circuit configured to perform a first noise control mode that charges unselected word lines, among the plurality of word lines, with electric charges, in response to a test mode signal and floats the unselected word lines.
US12283320B2
A data processing method based on a memristor array and an electronic apparatus are disclosed. The data processing method based on a memristor array includes: acquiring a plurality of first analog signals; setting the memristor array, and writing data corresponding to a convolution parameter matrix of a convolution processing into the memristor array; inputting the plurality of first analog signals respectively into a plurality of column signal input terminals of the memristor array that has been set, controlling operation of the memristor array to perform the convolution processing on the plurality of first analog signals, and obtaining a plurality of second analog signals after performing the convolution processing at a plurality of row signal output terminals of the memristor array, respectively.
US12283319B2
An operating circuit and an operating method of a resistive random-access memory are provided, the operating circuit includes: at least one capacitance connected in series with the resistive random-access memory, so that the resistive random-access memory is grounded through the at least one capacitance. The operating method includes: connecting at least one capacitance in series with a resistive random-access memory, so that the resistive random-access memory is grounded through the capacitance; applying a forming pulse voltage or a set pulse voltage on the resistive random-access memory to achieve a forming operation or a set operation of the resistive random-access memory.
US12283313B2
A low-power static random access memory (SRAM) is set forth which includes a cache memory function without requiring a special bit cell, and which realizes robust read and write operation without any write assist circuit at 16 nm or below FinFET technology. The SRAM comprises a half-Vdd precharge 6 T SRAM cell array for robust operation at low supply voltage at 16 nm or below, and with cacheable dynamic flip-flop based differential amplifier referred to as a main amplifier (MA). Prior art 6 T SRAM cell arrays use Vdd or Vdd-Vth precharge schemes, and have separate read and write amplifiers. The SRAM set forth uses one main amplifier only, which is connected to the bit line (BL) through a transmission gate. The main amplifiers functions as a read amplifier, write amplifier, and a cache memory.
US12283306B2
A p layer extending in a direction horizontal to a substrate is provided separately from the substrate. An n+ layer is provided on one side of the layer. A gate insulating layer partially covers the layers. A gate conductor layer partially covers the layer. A gate insulating layer partially covering the layer is provided separately from the layer. A gate conductor layer partially covers the layer. An n+ layer is provided at part of the p layer between the layers. The layers are connected to a bit line, a source line, a word line, and a plate line, respectively. Memory operation of a dynamic flash memory cell is performed by manipulating voltage of each line.
US12283304B2
A memory system may include: a non-volatile memory device, a volatile memory device suitable for defining, as cold data, data stored in a word line, on which a refresh operation is performed a number of times greater than a reference number among a plurality of word lines coupled to a volatile memory cell array, and evicting the cold data, and a controller suitable for controlling operations of the volatile memory device and the non-volatile memory device, and storing the evicted cold data into the non-volatile memory device.
US12283290B2
Disclosed herein are computer-implemented method, system, and computer-readable storage-medium embodiments for implementing template-based excerpting and rendering of multimedia performances technologies. An embodiment includes at least one computer processor configured to retrieve a first content instance and applying a template that results in transforming the first content instance. The first content instance may include a plurality of structural elements. The first content instance may be transformed by a rendering engine running on the at least one computer processor and/or transmitted to a content-playback device. An embodiment of transforming the first content instance includes trimming the content instance based on requirements provided by social media platforms.
US12283280B2
A method for audio signal filtering. The method includes generating a pair of filters for a certain location specified by an elevation angle ϑ and an azimuth angle φ, the pair of filters consisting of a right filter (ĥr(ϑ, φ)) and a left filter (ĥl(ϑ, φ)); filtering an audio signal using the right filter; and filtering the audio signal using the left filter. Generating the pair of filters comprises: i) obtaining at least a first set of elevation basis function values at the elevation angle; ii) obtaining at least a first set of azimuth basis function values at the azimuth angle; iii) generating the right filter using: a) at least the first set of elevation basis function values, b) at least the first set of azimuth basis function values, and c) right filter model parameters; and iv) generating the left filter using: a) at least the first set of elevation basis function values, b) at least the first set of azimuth basis function values, and c) left filter model parameters.
US12283278B2
Speech processing techniques are disclosed that enable determining a text representation of alphanumeric sequences in captured audio data. Various implementations include determining a contextual biasing finite state transducer (FST) based on contextual information corresponding to the captured audio data. Additional or alternative implementations include modifying probabilities of one or more candidate recognitions of the alphanumeric sequence using the contextual biasing FST.
US12283275B2
A method of controlling a battery-powered remote controller to decrease a duty cycle to allow continued operations despite the quantity of the battery is bad. The method determines a drop in voltage of the battery in standby mode as voltage of the battery is being read. When receiving a command to activate a voice function, determining whether the drop in voltage in the standby mode is greater than or equal to a preset value. If the drop is greater than or equal to the preset value, the method then determines whether the drop in voltage falls in a preset range. If the drop falls in the preset range, the method regulates a duty cycle of the pulse signal activating the voice function, and activates the voice function as required. A remote controller and a non-transitory storage medium are also provided.
US12283273B2
Provided are a service management system for a vehicle and a service management method for a vehicle that may receive a request from a passenger in a van by voice. In particular, the service management system determines whether to approve the request considering other passengers' opinions in the van, and then automatically performs relevant controls to fully reflect the passenger's request and safely provide a service even in the van carrying a large number of passengers.
US12283267B2
Disclosed is a speech synthesis method including acquiring second speech data and a target text, acquiring first information includes embedding information corresponding to the second speech data, acquiring second information including embedding information of the second speech data, the embedding information in relation with components generated based on a sequence of the target text, and acquiring audio data corresponding to the target text and reflecting characteristics of speech of a speaker based on the first information and the second information.
US12283256B2
The present disclosure provides a method for determining a pixel voltage, an electronic device, and a storage medium. The method includes: obtaining an initial color shift ratio of a sub pixel to be tested, obtaining an initial evaluation value of a preset grayscale value, and obtaining a current evaluation value of the preset grayscale value according to a current color shift ratio; comparing the initial evaluation value with the current evaluation value; and determining a standard sub pixel voltage of the sub pixel to be test according to the current color shift ratio, when the current evaluation value is greater than the initial evaluation value.
US12283252B2
A display device includes a display panel including a plurality of pixels, a data driver configured to provide data voltages to the pixels, and a gate driver configured to provide gate signals to the pixels. The display device also includes a controller configured to control the data driver and the gate driver, and to control the magnitude of a sensing initialization voltage applied to the pixels based on a frame rate value when operating in a variable frame mode.
US12283240B2
A light-emitting control circuit includes: a first detection control unit configured to transmit a first voltage signal to the first node under control of a detection control signal and a first clock signal; a first light-emitting output unit configured to transmit the first voltage signal to a first output signal terminal under control of a voltage of the first node; a second detection control unit configured to transmit the first voltage signal to a second node under control of the detection control signal and a second clock signal; and a second light-emitting output unit configured to transmit the first voltage signal to a second output signal terminal under control of a voltage of the second node.
US12283238B2
A display screen frequency conversion method, a DDIC chip, and a terminal are provided. The method includes: outputting a Tearing Effect (TE) signal to an Application Processor (AP) at a first base frame rate, and performing an image scanning and a frame compensating at the first base frame rate; receiving a frequency reducing instruction issued by the AP, wherein the frequency reducing instruction is configured to instruct to reduce a base frame rate of the display screen; and outputting the TE signal to the AP at a second base frame rate based on the frequency reducing instruction and continually performing the image scanning and the frame compensating at the first base frame rate, wherein the second base frame rate is less than the first base frame rate.
US12283234B2
A pixel driving circuit including a driving circuit, a first light emission control circuit and a first digital circuit. The driving circuit is connected to a first power source end, a first node and the light-emitting unit, and is used for providing, according to the voltage of the first node, a driving current for the light-emitting unit by using the first power source end; the first light emission control circuit is connected to a first digital signal end; and the first digital circuit comprises a first signal conversion circuit, and the first signal conversion circuit is connected to a first analog signal end and the first digital signal end and is used for inputting the first digital signal into the first digital signal end according to a first analog signal of the first analog signal end.
US12283231B2
An electronic device includes a pixel circuit. The pixel circuit includes a driving transistor, an emission transistor, a capacitor, and a light-emitting element. The driving transistor is electrically connected to the emission transistor and the capacitor. The emission transistor is electrically connected to the light-emitting element. Under the same driving voltage, the driving transistor has a first conductive resistance value, the emission transistor has a second conductive resistance value, and the first conductive resistance value is greater than the second conductive resistance value.
US12283225B2
A display apparatus comprises: a display panel including pixels that emit light, wherein an amount of emitted light is controlled based on a data voltage, and an emission time of the pixels is controlled based on a duty ratio of an emission control signal applied to the pixels; a timing controller configured to control the emission control signal in an active period of one frame and in a blank period of the one frame, where the data voltage is supplied to the pixels during the active period of the one frame and the data voltage is maintained during the blank period of the one frame; and a gate driver configured to apply to the pixels the emission control signal having a first duty ratio during the active period and the emission control signal having a second duty ratio that is different from the first duty ratio during the blank period.
US12283215B2
A display device including a display panel and a driving circuit is provided. The display panel is configured to display an image frame. The driving circuit is coupled to the display panel. The driving circuit is configured to output a gate signal to drive the display panel to display the image frame during a driving period. The driving period includes a first period, a second period, and a third period. The gate signal has a first voltage level during the first period and a second voltage level during the second period. The second voltage level is greater than the first voltage level.
US12283214B2
The present disclosure provides a gate driver on array (GOA) circuit including a plurality of GOA units disposed in N-stage cascade, and an nth-stage GOA unit includes a node control module, a pull-up module, a pull-down module, a pull-down maintaining module, and a stop control module, wherein 1
US12283210B2
A display device and a method of driving the same are provided. The method of driving the display includes a display area to display an image. The method includes performing a first first pixel shift driving by shifting an image by a first range in the display area without loss of image information due to enlargement or reduction of the image, checking whether a change of a block grayscale value is greater than or equal to a threshold in an interest area in the display area, and performing second pixel shift driving by shifting an image having the loss of image information.
US12283207B2
A display device is disclosed. The display device of the present disclosure may comprise: a flexible display panel; a panel roller which elongates and on or from which the display panel is wound or unwound; a first frame positioned to be adjacent to one end of the panel roller; a second frame positioned to be adjacent to the other end of the panel roller and faces the first frame with respect to the panel roller; a bearing coupled to the one end of the panel roller and fixed to the first frame; a disk wheel adjacent to the other end of the panel roller and coupled to the panel roller while intersecting a rotary shaft of the panel roller; a first stable roller coming into contact with the disk wheel; and a second stable roller coming into contact with the disk wheel.
US12283194B2
An example operation may provide receiving, at a server, one or more communications from a drone, determining the one or more communications identify a drone identifier and a current time, determining whether the one or more communications were received within a time window, assigning a token to the identified drone indicating the drone is active, and storing the token as a transaction in memory.
US12283193B2
Load volume predication for slung loads of aerial vehicles are disclosed. A system can identify parameters of a load. The system can determine a volume occupied by a superposition of locations of the cone. The system can receive from sensors or models, characteristics of an environment associated with the aerial vehicle or the load. The system can detect an obstacle in the environment. The system can take a navigational action in response to detecting the obstacle.
US12283189B2
An information processing device includes: a first acquisition unit configured to acquire position information of a mobile terminal; a second acquisition unit configured to acquire position information of a vehicle; a third acquisition unit configured to acquire movement means information of a holder of the mobile terminal; a determination unit configured to determine a likelihood of collision between the holder of the mobile terminal and the vehicle at a crossing based on a position of at least one crossing included in road information stored in a storage unit; and a notification unit configured to give a warning to at least one of the mobile terminal and a person in the vehicle based on a result of determination from the determination unit.
US12283186B2
A vehicle driving control method, comprising: during vehicle driving, acquiring location information of a vehicle for communication within a predetermined distance range (101); determining, based on the location information, a location relationship with the vehicle for communication (102); determining, according to the location relationship, a driving path of the vehicle for communication (103); and sending a communication instruction to the vehicle for communication such that the vehicle for communication drives according to the driving path (104).
US12283179B2
An assembly for correcting an attitude of at least a selected portion of a structure, where the assembly includes a controller affixed to a structure operatively coupled with one or more jacks operable to change the attitude of the structure; and a remote device configured to communicate wirelessly with the controller to change the attitude of a selected portion of the structure. Also disclosed is a method for adjusting an attitude of a movable structure.
US12283178B2
A multi-angle trip alarm apparatus, a kit including parts for a multi-angle trip alarm apparatus, and a method for setting a multi-angle trip alarm apparatus using such parts.
US12283172B2
Systems and methods comprise a gateway at a premises. The gateway is coupled to a remote system. An interface component is coupled to a processor of the gateway. The interface component comprises at least one module that interfaces and exchanges data with a processing component of a security system installed at a location. The processing component uses a proprietary protocol of the security system for processing data of the security system. The processor controls communications that comprise passing commands from the remote systems to the security system, and passing event data of the security system to the remote system.
US12283170B2
A variety of methods, medical devices, responder network servers, emergency services interfaces and call center related processes are described that can help improve responder networks designed to get a medical device such as an automated external defibrillator and/or volunteer responders to the scene of a potential medical incident.
US12283167B2
The disclosure relates to the field of intelligent home, and particularly to an indoor monitoring method, device and system, a storage medium and a camera device. The method includes: controlling a camera device to acquire monitoring images at consecutive times in a room; identifying a first monitoring image at a previous time and a second monitoring image at a current time, and identifying items corresponding to the first monitoring image and the second monitoring image and positions of the items, respectively; determining whether a position of an item changes according to the position of the item in the first monitoring image and the position of the item in the second monitoring image; and generating item record information of the item when it is determined that the position of the item changes, wherein the item record information represents movement of the item in the room. In this way, the item record information helps the user to record the relevant information of the item, so as to ensure that the user can quickly find the corresponding item.
US12283165B2
Disclosed are visual recognition and sensor fusion weight detection system and method. An example method includes: tracking, by a sensor system, objects and motions within a selected area of a store; activating, by the sensor system, a first computing device positioned in the selected area in response to detecting a presence of a customer within the selected area: identifying, by the sensor system, the customer and at least one item carried by the customer; transmitting, by the sensor system, identifying information of the customer and the at least one item to a computing server system via a communication network; measuring, by the first computing device, a weight of the at least one item; transmitting, by the first computing device, the weight to the computing server system via the communication network; and generating, by the computing server system, via the communication network, transaction information of the at least one item.
US12283152B2
The present disclosure relates generally to system and method for mounting a topper screen and mounting bracket to the frame of a gaming machine cabinet. The topper mounting bracket may include an angled mounting plate, a topper electrical connector fastened to the angled mounting plate, and at least one mounting bolt fastened to and protruding from the angled mounting plate. The cabinet frame may include an angled mounting surface, a movable cabinet electrical connector coupled to the angled mounting surface, and at least one key slot positioned on the angled mounting surface. The topper mounting bracket may be mounted to the cabinet frame by aligning and engaging the at least one mounting bolt with the at least one key slot. Once engaged, the topper mounting bracket and topper screen is secured to the gaming machine cabinet allowing an installer to establish an electrical connection between the topper screen and the gaming machine cabinet by connecting the topper electrical connector with the movable cabinet electrical connector. The display mounting system allows a single installer to assemble and mount the topper display to the gaming machine cabinet safely and without assistance.
US12283149B2
A collation system of the present invention includes imaging means for acquiring a captured image of a pre-passage side area with respect to each of gates arranged in parallel with each other, and collation means for performing a collation process on the captured image of the pre-passage side area for each of the gates, between a previously registered target and a target included in the captured image. The collation means performs the collation process on the basis of a target in the captured image corresponding to one of the gates and a target in the captured image corresponding to another one of the gates.
US12283140B2
A system may include sensors, provided on a vehicle, to sense one or more operational states of the vehicle and output the sensed operational states. A system may include a cloud computing platform to receive the sensed operational states, a modeling application, provided at the cloud computing platform, having a processor to execute software to generate and operate a digital twin of the vehicle, the digital twin encompassing twin subsystems of the vehicle and simulating operations thereof; and an artificial intelligence system, associated with the cloud computing platform, to receive and process the sensed operational states and updates an operational parameter of the drive train of the vehicle based on the modeling application.
US12283132B2
This application provide a vehicle communication method performed by an electronic toll collection (ETC) system. The ETC system includes an ETC roadside unit (RSU) and an ETC onboard unit (OBU), and the vehicle communication method includes: establishing, when an ETC OBU of any vehicle is detected, a connection between the ETC OBU and the ETC RSU; performing ETC billing on the vehicle through the ETC RSU after the ETC RSU establishes the connection with the ETC OBU; and performing, after the ETC RSU performs ETC billing, vehicle communication message interaction with the ETC OBU through the ETC RSU via the connection with the ETC OBU when the ETC OBU is still within a communication range of the ETC RSU.
US12283120B2
A method for detecting three-dimensional (3D) objects in relation to autonomous driving is applied in an electronic device. The device obtains detection images and depth images, =inputs the detection images into a trained object detection model to determine categories of objects in the detection images and two-dimensional (2D) bounding boxes of the objects. The device determines object models of the objects and 3D bounding boxes of the object models according to the object categories, and calculates point cloud data of the objects selected and distances from the depth camera to the object models. The device determines angles of rotation of the object models of the objects according to the object models of the objects and the point cloud data, and can determine respective positions of the objects in 3D space according to the distance from the depth camera to the object models, the rotation angles, and the 3D bounding boxes.
US12283118B2
An apparatus and a method for detecting a three-dimensional object includes a camera configured for obtaining a 2D image, and a controller electrically connected to the camera, and the controller extracts 2D information and 3D information for at least one object from the 2D image, and detects 3D object information by utilizing the 2D information and the 3D information.
US12283114B2
A system for determining lane information. A memory storing instructions executable by a processor includes instructions to receive forward image data of a roadway from a forward-facing camera of a vehicle, determine visible lane boundaries of the driving lane based on lane marking features in the forward image data, determine a predicted lane boundary of the driving lane based, at least in part, on forward features in the forward image data, and determine a driving path of the vehicle through the visible lane boundaries and the predicted lane boundary.
US12283102B2
A computing system identifies broadcast video data for a game. The computing system generates tracking data for the game from the broadcast video data using computer vision techniques. The tracking data includes coordinates of players during the game. The computing system generates optical character recognition data for the game from the broadcast video data by applying one or more optical character recognition techniques to each frame of the plurality of frames to extract score and time information from a scoreboard displayed in each frame. The computing system detects a plurality of events that occurred in the game by applying one or more machine learning techniques to the tracking data. The computing system receives play-by-play data for the game. The computing system generates enriched tracking data. The generating includes merging the play-by-play data with one or more of the tracking data, the optical character recognition data, and the plurality of events.
US12283101B2
Provided are an apparatus and method for recognizing whether an action objective is achieved. The apparatus includes a video feature extraction module configured to receive a video and output a video feature sequence through an operator, such as a convolution operator, an action case memory module configured to compress and store action case information for each action type and each of success and failure groups transmitted from the video feature extraction module and return the action case information according to a query including a pair of an action type and whether the action is successful, and an action success or failure determination module configured to receive a pair of a video feature sequence and an action type identifier and output whether an action of the given video feature sequence is successful in connection with the action case memory module.
US12283099B2
A method includes capturing, by a sensor on an unmanned aerial vehicle (UAV), an image of a delivery location. The method also includes determining, based on the image of the delivery location, a segmentation image. The segmentation image segments the delivery location into a plurality of pixel areas with corresponding semantic classifications. The method additionally includes determining, based on the segmentation image, a percentage of obstacle pixels within a surrounding area of a delivery point at the delivery location, wherein each obstacle pixel has a semantic classification indicative of an obstacle in the delivery location. The method further includes based on the percentage of obstacle pixels being above a threshold percentage, aborting a delivery process of the UAV.
US12283095B2
An image detection and classification method for faster detection and classification by a neural network is applied to a neural network model including n operators. The neural network model is mapped to a singly-linked list. A vector of data pairs corresponding to the singly-linked list is established, and operator subsets of the neural network model are determined according to the vector. A target image is input to the neural network model, and input data and output data of the operator subset are recorded. The neural network model is applied to detect the target image, and a detection result is output according to the input data and the output data. The method can detect images quickly.
US12283090B2
Methods, apparatus, and processor-readable storage media for automated image analysis using artificial intelligence techniques are provided herein. An example computer-implemented method includes obtaining image data associated with at least one event; characterizing a plurality of attributes of the image data by processing at least a portion of the image data using one or more artificial intelligence techniques and processing metadata associated with at least a portion of the image data using one or more rule-based techniques; generating a determination as to whether one or more portions of the image data have been modified based at least in part on the plurality of characterized attributes of the image data; and performing one or more automated actions, based at least in part on the determination, in connection with at least one user request related to the image data associated with the at least one event.
US12283087B2
A model training method includes obtaining an image sample set and brief-prompt information; generating a content mask set according to the image sample set and the brief-prompt information; generating a to-be-trained image set according to the content mask set; obtaining, based on the image sample set and the to-be-trained image set, a predicted image set through a to-be-trained information synthesis model, the predicted image set comprising at least one predicted image, the predicted image being in correspondence to the image sample; and training, based on the predicted image set and the image sample set, the to-be-trained information synthesis model by using a target loss function, to obtain an information synthesis model.
US12283083B2
Systems and methods are provided for automatically generating a thumbnail for a video on an online shopping site. The disclosed technology automatically generates a thumbnail for a video, where the thumbnail represents an item but not necessarily content of the video. A thumbnail generator receives a video that describes the item and an ordered list of item images associated with the item used in an item listing. The thumbnail generator extracts video frames from the video based on sampling rules and determines similarity scores for the sampled video frames. A similarity score indicates a degree of similarity between content of a video frame and an item image. The thumbnail generator determines weighted similarity scores based item images and occurrences of sampled video frames in the video. The disclosed technology generates a thumbnail for the video by selecting a sample video frame based on the weighted similarity scores.
US12283078B2
A scanning system and method for controlling an aiming light source (7), comprising: an image sensor (4), which sequentially exposes a pixel array through a rolling shutter to acquire an image of the target, the pixel array includes effective pixels (5) and non-imaging pixels (6), the effective pixels (5) are pixels that are actually used for image decoding, and the non-imaging pixels (6) are pixels that are not actually used for image decoding; an aiming light source (7) for projecting an aiming pattern (8) to aim at a target; a control unit (12) for controlling the image sensor (4) and the aiming light source (7), so that the aiming light source (7) is in turned off state during the exposure time of the effective pixel (5), and the aiming light source (7) is turned on during at least part of the exposure time of the non-imaging pixels (6).
US12283075B2
Neural network based substitutional end-to-end (E2E) image compression (NIC) being performed by at least one processor and includes receiving an input image to an E2E NIC framework, determining a substitute image based on a training model of the E2E NIC framework, encoding the substitute image to generate a bitstream, mapping the substitute image to the bitstream to generate a compressed representation of the input image. Further, the input may be partitioned into blocks for which a substitute representation is determined for each block and each block is encoded instead of the entire substitute image.
US12283069B2
A conversion parameter calculation method includes: obtaining, from a first image capturing device, first image data obtained by the first image capturing device capturing an image of an object; obtaining, from a second image capturing device, second distance data indicating a distance to the object, and second image data obtained by the second image capturing device capturing an image of the object; obtaining displacement direction information indicating a direction of a displacement of the object in three dimensions; associating positions on the object in the first image data and the second image data; estimating a position of the first image capturing device; calculating first distance data indicating a distance from the first image capturing device to the object; and calculating a conversion parameter for converting a pixel displacement amount of the object into the actual displacement amount, using the first distance data and the displacement direction information.
US12283063B2
A navigation system for a host vehicle may include a processor programmed to determine at least one indicator of ego motion of the host vehicle. A processor may be also programmed to receive, from a LIDAR system, a first point cloud including a first representation of at least a portion of an object and a second point cloud including a second representation of the at least a portion of the object. The processor may further be programmed to determine a velocity of the object based on the at least one indicator of ego motion of the host vehicle, and based on a comparison of the first point cloud, including the first representation of the at least a portion of the object, and the second point cloud, including the second representation of the at least a portion of the object.
US12283061B2
A framework for gantry alignment of a multimodality medical scanner. First image data of a non-radioactive structure is acquired by using intrinsic radiation emitted by scintillator crystals of detectors in a first gantry of the multimodality medical scanner. Second image data of the non-radioactive structure is acquired using a second gantry for another modality of the multimodality medical scanner. Image reconstruction may be performed based on the first and second image data of the non-radioactive structure to generate first and second reconstructed image volumes. A gantry alignment transformation that aligns the first and second reconstructed image volumes may then be determined.
US12283060B2
Digital image synthesis techniques are described that leverage splatting, i.e., forward warping. In one example, a first digital image and a first optical flow are received by a digital image synthesis system. A first splat metric and a first merge metric are constructed by the digital image synthesis system that defines a weighted map of respective pixels. From this, the digital image synthesis system produces a first warped optical flow and a first warp merge metric corresponding to an interpolation instant by forward warping the first optical flow based on the splat metric and the merge metric. A first warped digital image corresponding to the interpolation instant is formed by the digital image synthesis system by backward warping the first digital image based on the first warped optical flow.
US12283052B2
The invention relates to a computer-implemented method for automatically detecting anatomical structures (3) in a medical image (1) of a subject, the method comprising applying an object detector function (4) to the medical image, wherein the object detector function performs the steps of: (A) applying a first neural network (40) to the medical image, wherein the first neural network is trained to detect a first plurality of classes of larger-sized anatomical structures (3a), thereby generating as output the coordinates of at least one first bounding box (51) and the confidence score of it containing a larger-sized anatomical structure; (B) cropping (42) the medical image to the first bounding box, thereby generating a cropped image (11) containing the image content within the first bounding box (51); and (C) applying a second neural network (44) to the cropped medical image, wherein the second neural network is trained to detect at least one second class of smaller-sized anatomical structures (3b), thereby generating as output the coordinates of at least one second bounding box (54) and the confidence score of it containing a smaller-sized anatomical structure.
US12283049B2
An operation method of a medical imaging apparatus for capturing an X-ray medical image is provided. The method includes receiving identification information of a user, receiving photographing mode selection information, determining that a photographing mode is an X-ray photographing mode for checking a health condition of an object on the basis of at least one of the identification information of the user and the photographing mode selection information, obtaining identification information of the object, determining an initial photographing position from among a plurality of predetermined photographing positions, and determining a photographing sequence of the plurality of predetermined photographing positions on the basis of the initial photographing position.
US12283047B2
In one example a method of fracture reduction includes imaging, intraoperatively, a fractured bone of a patient to obtain a first representation of the fractured bone in a computing system. The fractured bone defines at least a first bone fragment, and a second bone fragment that is separated from the first bone fragment by a fracture. The method includes imaging, intraoperatively, a contralateral bone of the patient to obtain a second representation of the contralateral bone in the computing system. The method includes generating, intraoperatively in the computing system, a mirrored representation of the first representation or the second representation. The first representation is compared to a representation of a desired orientation of the fractured bone, where the representation of the desired orientation is the mirrored representation of the second representation. Alternatively, the mirrored representation is compared to the representation of the desired orientation of the fractured bone, where the representation of the desired orientation is the second representation.
US12283042B2
A system for preparing a pharmaceutical compound comprises: a scale having a platen configured for placement of an object thereon; a supporting arm comprising a first end coupled to a portion of the scale and a second end extending to a position above the platen of the scale; and an enclosure housing extending from the second end of the supporting arm and configured to house at least one input device. The enclosure housing has a curved front profile to minimize flow disturbance when the system is positioned within a flow hood.
US12283038B2
Provided is a tool wear monitoring device configured to input a plurality of pieces of image data captured with a microscope camera while changing an angle, and to monitor tool wear. The tool wear monitoring device includes a data analysis unit configured to analyze image data. The data analysis unit binarizes the plurality of pieces of image data captured while changing an angle, extracts data in which a worn region has a maximum area among the plurality of pieces of image data, and analyzes the amount of wear from the extracted data with the maximum area.
US12283033B2
Provided is a damage diagram creation support method, which includes: acquiring information on a region having internal damage to a structure within an inspection target region; acquiring a visible light image obtained by imaging the inspection target region with a visible light camera; detecting fissuring appearing on a surface of the structure in the visible light image; and creating a damage diagram in which the fissuring detected in the visible light image is traced. Also provided is a damage diagram creation support device capable of appropriately recording a detection result of fissuring automatically detected from an image.
US12283031B2
Provided are an apparatus and method for honeycomb artifacts removal for removing honeycomb artifacts in images received from an optical fiber imaging device through a honeycomb artifact removal model. The honeycomb artifact removal apparatus according to an embodiment includes a control unit configured to create a training dataset, build the honeycomb artifact removal model with the created training data, remove a honeycomb artifact in an input image through the built honeycomb artifact removal model and output a corrected image, wherein the control unit is configured to perform preprocessing of a raw image, acquire a honeycomb artifact image through the optical fiber imaging device, and synthesize the preprocessed raw image with the honeycomb artifact image to generate a honeycomb artifact synthesized image, and the training dataset is created by mapping the honeycomb artifact synthesized image as input data and the preprocessed raw image as output data.
US12283026B2
The invention provides an ultrasound imaging apparatus capable of highly accurately extracting a blood flow in a fine blood vessel in a short time. N pieces of frame data is generated by receiving ultrasound waves reflected by a subject with a plurality of transducers. A correlation matrix is generated based on a vector in which data at a corresponding position of the frame data is arranged for N frames, and a singular value and a singular vector for each of N ranks are calculated. A first filter element is calculated based on a variance between data at a corresponding position zx among a plurality of blood flow component frame data obtained by multiplying a plurality of the frame data by singular vectors at a threshold rank k or more. The second filter element is calculated based on the tissue component frame data obtained by multiplying the frame data by a singular vector at a rank 1. The frame data is weighted by the first filter element and/or the second filter element to generate a clutter reducing image.
US12283022B2
The present invention provides an image processing method, wherein the image processing method includes the steps of: receiving an image signal, wherein the image signal comprises a first frame and a second frame; performing motion estimation on the first frame and the second frame to generate an interpolated frame; for each of a plurality of areas of the interpolated frame, determining whether there is a block in the first frame that moves to the area, and determine whether there is a block in the second frame that moves to the area, to determine whether the area belongs to a cover area or an uncover area; and in response to a determination result indicating that the area belongs to the cover area or the uncover area, adjusting image contents of the interpolated frame.
US12283016B2
An intraoral scanner system includes an intraoral scanner having an imaging device and a sensing face, and a computing device, communicatively coupled to the intraoral scanner. The computing device receives a first intraoral images of a three-dimensional intraoral object of a patient generated by the intraoral scanner corresponding to an intraoral scanning of the three-dimensional intraoral object of the patient. The computing device registers a first intraoral image of the first intraoral images relative to a second intraoral image of the first intraoral images using a model of the three-dimensional intraoral object that existed prior to the intraoral scanning.
US12283001B2
Systems, methods, apparatuses, and computer program products for computing three-dimensional (3D) Euler angles through a distinctive matrices pattern. A method for calculating relative orientations of rigid bodies in space may include determining a three-dimensional (3D) coordinate system of a rigid body D at a time T. The method may also include determining a 3D coordinate system of a rigid body E at time T. The method may further include determining a relative orientation at time T of the rigid body E in the 3D coordinate system of the rigid body D. In addition, the method may include calculating a final relative orientation of the rigid body E in the 3D coordinate system of the rigid body D by implementing a single set of Euler angle equations irrespective of a rotation sequence or a convention chosen.
US12282992B2
Systems and methods for machine learning based controllable animation of still images is provided. In one embodiment, a still image including a fluid element is obtained. Using a flow refinement machine learning model, a refined dense optical flow is generated for the still image based on a selection mask that includes the fluid element and a dense optical flow generated from a motion hint that indicates a direction of animation. The refined dense optical flow indicates a pattern of apparent motion for the at least one fluid element. Thereafter, a plurality of video frames is generated by projecting a plurality of pixels of the still image using the refined dense optical flow.
US12282987B2
Methods, systems, and non-transitory computer readable storage media are disclosed for generating image mattes for detected objects in digital images without trimap segmentation via a multi-branch neural network. The disclosed system utilizes a first neural network branch of a generative neural network to extract a coarse semantic mask from a digital image. The disclosed system utilizes a second neural network branch of the generative neural network to extract a detail mask based on the coarse semantic mask. Additionally, the disclosed system utilizes a third neural network branch of the generative neural network to fuse the coarse semantic mask and the detail mask to generate an image matte. In one or more embodiments, the disclosed system also utilizes a refinement neural network to generate a final image matte by refining selected portions of the image matte generated by the generative neural network.
US12282984B2
A computer implemented method for augmenting a first image with image data from a second image, the method comprising: receiving (S02) the first image depicting a first scene; capturing (S04) the second image depicting a second scene using an image capturing device; identifying (S06) an object in the second image; receiving (S08) a 3D model from a database, the database comprising a plurality of 3D models, the 3D model corresponding to the identified object of the second image; aligning (S10) the 3D model with the identified object in the second image; extracting (S12) pixel data from the second image using a contour of the 3D model's projection onto the second image; inserting (S14) the extracted pixel data of the second image data into the first image, thereby rendering an augmented image.
US12282982B2
Some embodiments of a method disclosed herein may include: receiving a predicted driving route, sensor ranges of sensors on an autonomous vehicle (AV), and sensor field-of-view (FOV) data; determining whether minimum sensor visibility requirements are met along the predicted driving route; predicting blind areas along the predicted driving route, wherein the predicted blind areas are determined to have potentially diminished sensor visibility; and displaying an augmented reality (AR) visualization of the blind areas using an AR display device.
US12282976B2
Provided are techniques for automatically enhancing content items through identifying relationships. One or more content items and an associated transcript for each of the one or more content items are received. One or more terms are identified in the one or more content items. A content tree is built for each of the one or more content items using the one or more terms and corresponding contexts. A content graph is built using each content tree. One or more subgraphs of the content graph are identified. One or more paths through each of the one or more subgraphs are identified and one or more content expansion recommendations are provided. In response to selection of a content item, the one or more paths are used to provide an enhanced content item with one or more prerequisite content items and one or more subsequent content items.
US12282972B2
The present disclosure is intended to reduce the occurrence of breakdown of a line facility due to variation between an agreement result and electric power actually flowing through a line. An electric power agreement system includes: an agreement result calculation unit that calculates an agreement result about each customer; a flow achievement calculation unit that calculates a flow achievement for the line facility individually; a flow plan calculation unit that calculates as the flow plan for the line facility individually; a risk calculation unit that calculates a variation of the flow achievement from the flow plan assumed in the future as a risk for the line facility individually on the basis of a variation of the flow achievement from the flow plan in the past; and a line constraint evaluation unit that determines for the line facility individually whether a risk-considered flow plan fulfills line constraint.
US12282967B2
A computer system for providing reimbursement controls to insurance policies is provided. The computer system may include a processor in communication with a memory device. The processor may be configured to: (i) generate a plurality of predesignated policy levels having a maximum reimbursement amount for a user based at least in part upon user data, (ii) prompt the user to select a predesignated policy level of the plurality of predesignated policy levels that includes an insurance policy covering one or more item categories up to the associated maximum reimbursement amount, (iii) store the selected predesignated policy level, (iv) receive a claim from the user, (v) determine, in response to the claim and based at least in part upon the selected predesignated policy level and the associated maximum reimbursement amount, an actual reimbursement amount for each insured item category of the one or more item categories, and (vi) provide a payment device to the user having reimbursement controls that provide the actual reimbursement amount by insured item category.
US12282966B2
Methods and systems for predictively generating an insurance claim in response to detecting an imminent insurance-related event are provided. According to certain aspects, a smart home controller or insurance provider remote processor may store a first set of data received from smart devices disposed on, or proximate to, a property. This data may be analyzed to detect that an insurance-related event is imminent and calculate a likelihood that a property owner will file an insurance claim in response to damage caused by the imminent insurance-related event. If there is a sufficient likelihood that an insurance claim will be filed, the smart home controller or remote processor may store a second set of data received from the smart devices. Subsequently, according to certain aspects, the second set of data may be analyzed to prepopulate an automatically generated insurance claim with information detailing damage to the property caused by the insurance-related event.
US12282957B2
Disclosed are various embodiments for funding central bank digital currency (CBDC) accounts by converting funds (e.g., fiat money, representative money, account currency, etc.) into CBDC. A request to fund a central bank digital currency (CBDC) wallet associated with a CBDC wallet address is received. The associated funds can be verified and, in the case of fiat money, confirmed destroyed. A transaction can be generated indicating an addition of CBDC having a CBDC value corresponding to the value of the funds. The transaction can be recorded in a CBDC ledger in association with the CBDC wallet address.
US12282956B2
Methods and systems are provided for securing distributed shares of an electronic wallet. An example method includes provisioning a plurality of devices each hosting an e-wallet share with enhanced privacy identification (EPID) private keys for the e-wallet share. A signature is posted for the e-wallet share to a blockchain. A determination is made as to whether the e-wallet share is compromised, and, if so, posting a revocation list comprising the signature for the e-wallet share to a blockchain.
US12282954B2
A central database system allows entities to easily manage human resources functions. An entity requests that the central database system executes an employer function on its behalf, and the central database system determines a probability of the entity defaulting before the entity can finalize the employer function with the central database system. The central database system can train and apply a machine-learned model to dynamically determine the default probability for the entity. Based on the default probability, the central database system determines a risk tolerance associated with the employer function and determines whether to process or challenge the employer function based on the risk tolerance and the default probability.
US12282945B1
In embodiments, methods and systems for order management and processing based on a distributed commerce platform are provided. A distributed commerce platform supports end-to-end integrated product publication, order-management and payment services. In particular, the distributed commerce platform supports components based on Application Programming Interfaces (API) that standardize the implementation of a distributed commerce solution or configuration of off-site buying experiences. Using the distributed commerce platform, merchants can concurrently offer, sell, and process orders for products through a plurality of different affiliate channels. The distributed commerce platform can also be implemented as a federated portal from which a merchant can identify affiliate channels to publish product objects, access the plurality of affiliate channels and define configurations for processing objects of the merchant's distributed commerce solution. The configurations can be accessed during a purchase flow such that orders from a channel are processed based on the specific attributes identified in the configurations.
US12282935B2
A tool for generating and publishing vehicle offers by matching up manufacturer incentive data and vehicle data received from a third party data source with inventory data received from a dealership data source is disclosed. The disclosed tool allows a user to match incentive and vehicle data to specific vehicles currently in a dealership's inventory and to generate custom offers for those specific vehicles that uniquely identify the specific vehicles from dealership's inventory.
US12282929B2
A system and method to obtain activity data for an activity of a user, the activity data corresponding to multiple parameters. A set of threshold criteria that corresponds to a multi-parameter activity zone is retrieved, where the set of threshold criteria includes an effort threshold criteria related to a heart rate of the user. An effort of the user is determined based on the activity data. A resistance experienced by the user is determined, where the resistance includes a measure representing at least one of stride rate, step rate, steps, or cadence. A posture of the user is determined. Based on the set of threshold criteria corresponding to the multi-parameter activity zone, an instance of the activity is classified as an activity type based on the resistance experienced by the user, the effort of the user, and the posture of the user.
US12282921B2
Provided is a blockchain-based data processing method performed by a computer device. The method includes: determining a plurality of transactions having a same group identifier in a transaction pool as group transaction data; packetizing each of the group transaction data into a proposal block, and executing each of the group transaction data in the proposal block to obtain a corresponding transaction execution result; when at least one transaction execution result comprises a transaction execution failure result, setting the transaction execution result to each of the group transaction data, and updating the proposal block according to the transaction execution failure result to obtain a target proposal block; and when the target proposal block is passed by consensus, performing accounting on the target proposal block and the transaction execution failure result corresponding to each of the group transaction data.
US12282914B1
Association of personal, financial, and/or business-related identification information with a mobile communication device (MCD) is provided for herein. For example, an MCD can be associated with a financial account and can further include an identification component that verifies an identity of a user of the MCD. Identity can be verified by biometric analysis (e.g., finger/thumb print scan), username and password, optical feature scan, or a combination thereof or of like mechanisms, for instance. Accordingly, the claimed subject matter provides a mechanism to verify identification of a user of an MCD and incorporate user ID into remote data exchange, including remote financial transactions, with one or more networked devices.
US12282911B2
Method for purchasing a product with a packaging from a smart fridge and recycle the packaging, wherein the method comprising the steps of identifying the consumer, unlocking a door of the smart fridge, opening the door, closing and locking the door, running a system inventory round in to detect which product that has been picked out from the smart fridge by the consumer, and charging the cost for the product from the consumer's payment account and sending a receipt to the mobile device. The invention is characterized in that the method further comprising the steps of placing the RFID tagged packaging in a smart recycling bin, detecting the RFID tag of the packaging via an RFID reader at the recycling bin, connecting the packaging to the consumer, and refunding the consumer for placing the product packaging in the recycling bin.
US12282909B2
A system, a medium, and a method are provided to send compensation data to devices at one or more locations where the data is retrievable. For example, a communication interface of a server device accesses request data, where the request data includes an indication of one or more locations where a compensation amount is retrievable. A compensation data component generates compensation data based on the indication of the one or more locations where the compensation amount is retrievable. A location component determines a location of a client device that corresponds to the one or more locations. A transceiver transmits the compensation data to the client device based on the determined location of the client device that corresponds to the one or more locations.
US12282907B2
In some implementations, a terminal device may obtain exchange information associated with an exchange initiated at the terminal device. The exchange information may identify a medium used in the exchange. The terminal device may be configured to present a terminal-side user interface for performing a signing operation of the exchange. The terminal device may selectively obtain user information associated with the medium used in the exchange. The user information may identify a user device associated with the medium. The terminal device may transmit, to the user device and based on obtaining the user information, presentation information that identifies content for a user-side user interface for performing the signing operation at the user device. The terminal device may receive, from the user device, signing information associated with a performance of the signing operation at the user device via the user-side user interface.
US12282905B2
Embodiments disclosed herein generally related to a system and method for authenticating a transfer request. A computing system receives a transfer request from a client device. The computing system determines that the monetary amount specified in the transfer request exceeds a threshold. The computing system identifies an automated teller machine (ATM) based on at least location information associated with a user of the client device. The computing system prompts the user to authenticate the transfer request at the identified ATM by transferring a message to the client device to be displayed thereon. The computing system receives an authentication attempt of the user from the ATM. The computing system compares authentication information in the authentication attempt to personal identification information associated with the user. The computing system determines that the authentication information at least partially matches personal identification information associated with the user. The computing system processes the transfer request.
US12282897B1
A method for establishing and generating contextual links between data from a plurality of data sources is described. The method includes receiving data and decomposing the received data into a decomposed data set; parsing and analyzing the decomposed data set based on a set of attribute analyzers to associate one or more attributes to the decomposed data set; determining an intent of data from the decomposed data set; generating a semantic graph of the decomposed data set based on the intent of data to evaluate data relatability between the decomposed data set; generating atomic knowledge units (AMUs) based on the parsed decomposed data set and the semantic graph; analyzing the AMUs corresponding to the received data by applying trained machine learning models to generate links between the AMUs and processing the generated links by a model ensemble to establish contextual links between data.
US12282893B2
The following relates generally to light detection and ranging (LIDAR) and artificial intelligence (AI). In some embodiments, a system: receives LIDAR data generated from a LIDAR camera; measures a plurality of dimensions of a landscape based upon processor analysis of the LIDAR data; builds a 3D model of the landscape based upon the measured plurality of dimensions, the 3D model including: (i) a structure, and (ii) a vegetation; and displays a representation of the 3D model.
US12282891B2
One or more identifiers are received based on an electronic scan of computer-readable indicia. The computer-readable indicia being coupled to an asset. The asset is associated with one or more shipping operations. Based at least in part on the one or more identifiers, it is determined that the asset is requested for return. Based at least in part on the one or more identifiers, a shipping label corresponding to a destination location for the asset to be returned to is automatically generated or a location for the asset to be delivered to is automatically changed.
US12282889B2
An autonomous delivery vehicle including locking storage containers may be used for item deliveries, rejections, returns, and/or third-party fulfillment. A delivery vehicle or robot may include a number of locking storage containers, an authorization interface, and one or more sensors to receive delivery requests, detect and authorize users, and control locker access at various delivery locations to allow users to receive delivered items, and reject or return items. The vehicle may also include a passenger compartment to transport one or more passengers. The vehicle may be reconfigurable to accommodate different combinations of lockers and/or passenger seats. An item delivery system may receive delivery requests and determine routes for delivery vehicles, including centralized delivery locations and/or direct deliveries to recipients.
US12282883B2
A method of generating a fault determination in a building management system (BMS), the method including receiving signal data, generating, using a number of fault detection models, a number of fault indications based on the signal data, generating, using a weighting function, based on the number of fault indications, a fault score, comparing the fault score to a fault value, and determining, based on the comparison, an existence of a fault.
US12282880B2
A sentiment-based score is determined for a contact center engagement between a first contact center service operator and a contact center user. The sentiment-based score is indicated within a graphical user interface displaying information associated with multiple contact center engagements at a device of a second contact center service operator. Based on a request to participate in the contact center engagement received from the device of the second contact center service operator via the graphical user interface, information associated with the contact center engagement is transmitted to the device of the second contact center service operator, and a contact center session involving a device of the contact center user and the device of the second contact center service operator is established.
US12282875B2
The present invention provides linkedchain, control tower and blockchain for one or more enterprise applications. The system includes a linked chain within a control tower configured to connect with blockchain and non-blockchain based entity systems.
US12282874B2
A critical path based proactive optimization that includes collecting data on the tasks of contextual situation for performing a process and training a twin computing simulation model using the collected data for each task in the process. A contextual situation simulation is run using the simulation models for each task in the process to determine a critical path that causes delay in the process. An optimized task is determined from the tasks of the contextual situation using machine learning employing the collected data, wherein the optimized task mitigates delay in the process from the critical path.
US12282873B2
A network computing system can coordinate on-demand transport serviced by transport providers operating throughout a transport service region. The transport providers can comprise a set of internal autonomous vehicles (AVs) and a set of third-party AVs. The system can receive a transport request from a requesting user of the transport service region, where the transport request indicates a pick-up location and a destination. The system can determine a subset of the transport providers to service the respective transport request, and executing a selection process among the subset of the transport providers to select a transport provider to service the transport request. The system may then transmit a transport assignment to the selected transport provider to cause the selected transport provider to service the transport request.
US12282867B2
This disclosure relates to a privacy preserving machine learning platform. In one aspect, a method includes receiving, by a first computing system of multiple multi-party computation (MPC) systems, an inference request that includes a first share of a given user profile. A number k of nearest neighbor user profiles that are considered most similar to the given user profile are identified. The first computing system identifies a first set of nearest neighbor profiles based on the first share of the given user profile and a k-nearest neighbor model. The first computing system receives, from each of one or more second computing systems of the multiple MPC systems, data indicating a respective second set of nearest neighbor profiles identified by the second computing system based on a respective second share of the given user profile and a respective second k-nearest neighbor model trained by the second computing system.
US12282859B2
The computing device trains a first model on a first data set using a first graph to predict relevant links between a plurality of nodes. The computing device obtains the first data set or a second data set associated with the plurality of nodes. The computing device determines the one or more features for the one or more links between the plurality of nodes, applies the trained first model to the one or more links between the plurality of nodes, outputs the relevant links and non-relevant links of the one or more links between the plurality of nodes, removes the non-relevant links between the plurality of nodes, connects each node of the plurality of nodes with the relevant links to generate one or more first sets of networks, and outputs the one or more first sets of generated networks.
US12282854B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for training a machine learning model. In one aspect, a method comprises: generating a set of candidate batches of model inputs; generating, for each candidate batch of model inputs, a respective score for the candidate batch of model inputs that characterizes: (i) an uncertainty of the machine learning model in generating predicted labels for the model inputs in the candidate batch of model inputs, and (ii) a diversity of the model inputs in the candidate batch of model inputs; and selecting the current batch of model inputs from the set of candidate batches of model inputs based on the scores; and training the machine learning model on at least the current batch of model inputs.
US12282852B2
An apparatus for applying dynamic quantization of a neural network is described herein. The apparatus includes a scaling unit and a quantizing unit. The scaling unit is to calculate an initial desired scale factors of a plurality of inputs, weights and a bias and apply the input scale factor to a summation node. Also, the scaling unit is to determine a scale factor for a multiplication node based on the desired scale factors of the inputs and select a scale factor for an activation function and an output node. The quantizing unit is to dynamically requantize the neural network by traversing a graph of the neural network.
US12282841B2
The invention relates to a synaptic chain of neural networks, the synaptic chain comprising synapses, each synapse being a spintronic resonator, the spintronic resonators being electrically connected in series by a transmission line and being alternately connected.
US12282837B2
Systems and methods for processing data collected in an industrial environment using neural networks
Methods and an expert system for processing a plurality of inputs collected from sensors in an industrial environment are disclosed. A modular neural network, where the expert system uses one type of neural network for recognizing a pattern relating to at least one of: the sensors, components of the industrial environment and a different neural network for self-organizing a data collection activity in the industrial environment is disclosed. A data communication network configured to communicate at least a portion of the plurality of inputs collected from the sensors to storage device is also disclosed.
US12282824B2
The present disclosure relates to a system and method for extracting a region of interest from a captured image of an item. The system may include a reader configured to capture an image of an item having a computer readable code positioned thereon. The system may also include a processor in data communication with the reader and configured to generate captured image data, the captured data comprising binary image data and identify a first pixel region representing the computer readable code from the binarized image data. The processor may be further configured to remove a second pixel region other than the first pixel region from the binarized image data and store or process only first binarized image data representing the first pixel region.
US12282816B1
A flexible device, such as a powered card or processor based system, may include a connector array. The connector array may be a contact connector such as an EMV connector. The connector array may include discrete connectors connected to landing pads of a circuit board. The discrete connectors may be exposed on a surface of the flexible device, and may be arranged in rows and columns. The discrete connectors may be formed using vias and by introducing material into the vias. A mask may be used to extend a level of the discrete connectors above an outer layer of the flexible device. A personalization layer may be applied to the flexible device to about a level of an outer surface of the connector. The flexible device may be programmed and tested during the application of the personalization layer.
US12282811B2
An image forming apparatus includes an image forming unit, an acquisition unit configured to acquire an acceptable number for processing, which is a number of the plurality of images that can be processed by a post processing device, a calculation unit configured to calculate a number of divisions for a plurality of images in order to make a number of the images to be formed by the image forming unit equal to or smaller than the acceptable number for processing, and a control unit configured to control the image forming unit such that a positioning image used for positioning the plurality of images is formed with respect to the post processing device, for each of divided portions of the plurality of images that have been divided in accordance with the number of divisions.
US12282799B2
A method for a transactional commit in a storage unit is provided. The method includes receiving a logical record from a storage node into a transaction engine of a storage unit of the storage node and writing the logical record into a data structure of the transaction engine. The method includes writing, to a command queue of the transaction engine, an indication to perform an atomic update using the logical record and transferring each portion of the logical record from the data structure of the transaction engine to non-persistent memory of the storage unit as a committed transaction. A storage unit for a storage system is also provided.
US12282790B2
Aspects of the disclosure relate to a cloud-based parallel processing and cognitive learning computing platform. A computing platform may receive query data comprising a plurality of requested metrics. The computing platform may select a secondary node to process the query request from a plurality of secondary nodes of the computing platform. The computing platform may send the query request to the secondary node. The computing platform may send a request to generate a metric mapping table for a first requested metric to a cognitive learning module of the computing platform. The cognitive learning module may generate the metric mapping table for the first requested metric using neuron clusters that comprise a plurality of unique programmable quadratic function neurons. The computing platform may calculate a value for the first requested metric based on the metric mapping table.
US12282789B2
Embodiments are directed to using remote pods. An intermediary software is instantiated in a worker node virtual machine and is used to cause a pod virtual machine to be created, the pod virtual machine being remote from the worker node virtual machine. An overlay network is established between the intermediary software in the worker node virtual machine and a pod space in the pod virtual machine. The overlay network is used to cause containers to be created in the pod virtual machine, where the worker node virtual machine is configured to use the overlay network to manage communications with the pod virtual machine.
US12282785B2
A system and method are provided for providing advisory notifications to mobile applications. The method includes interfacing the server device with at least one endpoint within an enterprise system and storing a model trained by a machine learning engine to automatically determine advisory notifications relevant to client data sets stored by the endpoint(s) and/or the at least one endpoint. The method also includes determining a current state of a client account, using the model to determine an advisory notification for the client account based on the current state, referring to a set of rules to determine when to provide the advisory notification in the mobile application, and in what portion of the mobile application to display the notification; and sending the advisory notification via the communications module to a client device to display the advisory notification in the mobile application.
US12282781B2
A distributed computing system is described that leverages a nearline storage layer to minimize the downtime required for bootstrapping a new computing cluster in the distributed computing system. The system executes a computing cluster comprising a set of computing nodes and determines a set of one or more data segments to be written to a nearline storage system. The system writes the data segments to the nearline storage system. In certain examples, the system receives a request to create a second computing cluster and responsive to the request, bootstraps the second computing cluster using the set of data segments stored on the nearline storage system. The system additionally leverages the nearline storage layer to accelerate query processing by the computing nodes of a computing cluster.
