US10965208B2
The present invention is directed to Bidirectional Multimode Power Converter which employs a high frequency dynamically varying amplitude modulation and voltage steering-method to convert the source AC or DC voltages to output AC or DC voltages with programmable output voltage levels, output voltage frequency and duration. The Bidirectional Multimode Power Converters of the present invention support: inrush current control, turning off the idle converter, line voltage brown out protection, soft start, high pre-charge voltage generation, soft shut down of converter, dimming operation, programmable time of the day operation and operation for specified duration of time. The Bidirectional Multimode Power Converters of the present invention support coupling of multiple power sources for bidirectional power conversion.
US10965205B2
A power conversion system for vehicles is provided. The system includes a first energy storage device and a charging device with a rectification circuit for rectifying AC power to generate a DC link voltage. A DC-DC converter converts the level of the DC link voltage to generate a charging voltage of the first energy storage device. A low voltage DC-DC converter selectively down-converts one of the voltage of the first energy storage device and the DC link voltage to output a low voltage having a predetermined level. The low voltage DC-DC converter selectively converts one of the voltage of the first energy storage device and the DC link voltage into the low voltage based on whether the first energy storage device is charged according to input of the AC power.
US10965203B2
The invention concerns a device comprising a fixed supporting structure (5) on which a plurality of permanent magnets (14-29) is provided, which surround at least partially a rotating shaft (32) supporting a rotor (2′) provided with a group of magnets (13) adapted to interact with the magnetic field generated by the plurality of permanent magnets (14-29) of the fixed supporting structure (5), so that to produce a rotation of the rotating shaft (32) which allows an alternator (1) to be activated, where the device (100) further comprises a swinging-lever assembly (40) provided with a plurality of magnets designed so that traction and/or thrust effects are generated on the group of magnets (13) by the rotor (2′) connected to the rotating shaft (32).
US10965199B2
An electric motor system includes a drive shaft that rotationally drives a load, a bearingless motor, a power source unit, and a control unit. The bearingless motor includes a rotor and a stator having armature and support windings. The bearingless motor rotationally drives the drive shaft and supports a radial load of the drive shaft in a contactless manner. The power source unit applies a voltage to the armature and support windings. The control unit controls the power source unit so that a radial support force that is a sum of a radial support force caused by a support current and a radial support force caused by both the support current and an armature current is output, and so that one of an armature voltage across the armature winding and the support current is increased and the other of the armature voltage and the support current is decreased.
US10965198B2
A coil includes a series of turns constituted by a first turn to an n-th turn of a conductive wire having a quadrangular cross-section, where the conductive wire is wound in a spiral shape and is stacked in a vertical direction, and n is an integer equal to or greater than 3. In addition, at least a part of the conductive wire of the first turn to the n-th turn is provided with a deformed part whose shape is different from shapes of the other parts. Further, the first turn and the n-th turn are on the both end parts of the series of turns. In addition, at each of the first turn and the n-th turn, the deformed part makes an outer surface positioned on an opposite side with respect to a center of the series of turns extend in a flush manner along a plane intersecting the series of turns.
US10965188B2
The present disclosure relates to a mechatronic actuator consisting of a housing incorporating a shell and a three-phase electric motor formed by a stator excited by electrical coils and by a magnetized rotor, driving an output shaft by means of a gear train, the axis of the rotor, the axis of the output shaft and the axes of the intermediate toothed wheels being parallel, the stator having a radial triangular star shape, the three wound poles forming the three branches of the star, the axes of symmetry of two consecutive wound poles forming a mechanical angle of 120°, the housing also incorporating an electronic circuit, including a capacitor for filtering the electrical signal, the shell having a longitudinal axis, characterised in that the stator is positioned in the hosing in such a way that the axis of symmetry of one of the three wound poles forms an angle of between 70 and 110° with the longitudinal axis.
US10965183B2
A traction drive system for a vehicle includes a housing, a high-speed motor, a motor controller, a transmission, a cooling system, and a lubricating oil system. The housing defines a motor cavity, an electronics cavity, an oil cavity, and a cooling fluid cavity. The cooling fluid cavity is thermally coupled to each of the motor, electronics, and oil cavities. The high-speed motor is substantially within the motor cavity and coupled to a lubricating oil system fluidically coupled to the oil cavity. The motor controller includes electronics within the electronics cavity. The transmission is mechanically coupled to the high-speed motor and coupled to the lubricating oil system fluidically coupled to the oil cavity. The cooling system is fluidically coupled to the cooling fluid cavity and configured to cool the high-speed motor, the motor controller, and the lubricating oil system.
US10965172B2
Methods, systems, and apparatus for a wireless charging apparatus. The wireless charging apparatus includes a layer or sheet of polymeric or similarly compliant material. The wireless charging apparatus includes an inductive loop embedded within the layer or sheet of polymeric material. The inductive loop has a first shape and a first size. The wireless charging apparatus includes one or more actuators. The one or more actuators are configured to move or shape the layer or sheet of polymeric material and the inductive loop. The wireless charging apparatus includes a controller. The controller is configured to determine a second shape or a second size for the inductive loop. The controller is configured to move or adjust the one or more actuators to form the inductive loop into a second shape or a second size.
US10965161B2
A wireless power receiving apparatus includes a receiving resonator configured to wirelessly receive energy; a resonant converter configured to transfer, to an output end of the wireless power receiving apparatus, energy of an energy storage device connected among a plurality of energy storage devices; and a controller configured to accumulate, alternatingly in the energy storage devices, the energy received, and select the energy storage device to be connected to the resonant converter from the energy storage devices.
US10965159B2
Some embodiments providing antenna systems comprising: a frame; a power transfer antenna cooperated with the frame, wherein the power transfer antenna is configured to enable at least one of wirelessly and inductively receiving electrical power from another consumer electronic device and wirelessly and inductively transmitting electrical power to another consumer electronic device; one or more low power communications antennas cooperated with the frame and configured to wirelessly transmit and receive communications with one or more other remote consumer electronic devices; wherein the frame is configured to readily be positioned within and mounted with multiple different consumer electronic devices and provide the consumer electronic device within which it is mounted with wireless power transfer capabilities and communication capabilities with a separate consumer electronic device with which wireless power transfer is to occur.
US10965143B2
Provided are a wireless power transmission device and an operation method of the wireless power transmission device according to embodiments. The wireless power transmission device according to an embodiment includes: a wireless power transmitter configured to transmit wireless power to a mobile device in response to a signal indicating that the mobile device is in contact with the wireless power transmission device; and a controller configured to control an operation with the mobile device, control an electronic device connected to the wireless power transmission device, or control at least one external device, in response to the signal indicating that the mobile device is in contact with the wireless power transmission device.
US10965142B2
Methods and devices useful in performing magneto-inductive charging and communication in the absence of a cellular and/or internet network connection are provided. By way of example, an electronic device includes inductive charging and communication circuitry configured to receive a signal configured to induce a charging function based at least in part on an inductive coil coupled to the inductive charging and communication circuitry. Inducing the charging function includes charging an energy storage component of the electronic device. The inductive charging and communication circuitry is also configured receive an indication to switch from the charging function to a communication function. The communication function is based at least in part on the inductive coil. The inductive charging and communication circuitry is further configured establish a communication link between the electronic device using the inductive coil to transmit and receive communication signals.
US10965140B2
A control method for controlling a battery charging circuit having at least one switch, includes: generating a first difference signal based on the difference between a charging current feedback signal and a charging current reference signal; generating a bias reference signal by proportionally integrating the first difference signal when the battery voltage is higher than a first threshold and less than a second threshold; generating a bias signal by proportionally integrating the difference between the sum of the bias reference signal and a system voltage reference signal and a system voltage feedback signal; generating a comparison signal by comparing the sum of the system voltage feedback signal and a ramp signal with the sum of the bias signal and the system voltage reference signal; and generating a control signal for controlling the at least one switch based on the comparison signal and a constant time period control signal.
US10965137B2
A charging device including a converter and a controller coupled with the converter is provided. The charging device is suitable for charging to an electronic device having a rated input voltage value. The converter can receive a power. Wherein, the controller makes the converter to output a first charging voltage value to the electronic device. The first charging voltage value is greater than the rated input voltage value of the electronic device. Further, a charging method of the charging device is provided.
US10965134B2
A portable solar power management system includes (i) a solar panel interface to one or more solar panels, (ii) an energy storage interface to one or more energy storage devices, (iii) a charging circuit which routes the electrical currents from the solar panels to the energy storage devices; (iv) a load interface to one or more load devices, the load devices being powered independently on primary and secondary load circuits; and (v) a controller for controlling the operations of solar panel interface, the energy storage interface, the charging circuit, and the load interface. In addition, a secondary load control circuit and a programmable controller may be provided which route the electrical currents from the energy storage devices to the load interface, wherein the programmable controller, based on the sensing signals, also activates and deactivates the secondary load circuit.
US10965132B2
A grounding circuit for a backup power source used to power a pitch motor of a pitch system in a wind turbine is provided. The grounding circuit includes one or more switching elements configured to selectively couple the backup power source to a charging circuit based on a state of a first interface element. The grounding circuit further includes one or more switching elements configured to selectively couple the backup power source to ground based on a state of a second interface element. The grounding circuit includes at least one circuit protection device coupled between the backup power source and the charging circuit. When the backup power source is coupled to the charging circuit and subsequently coupled to ground, the at least one circuit protection device is configured to decouple the backup power source from the charging circuit.
US10965126B2
An apparatus includes a plurality of photovoltaic modules including at least a first and a second photovoltaic module having outputs connected in series by a bus. A voltage detection circuit detects a bus voltage at an output of the bus, to provide an indicator of detected bus voltage to the first photovoltaic module, and to provide the indicator of detected bus voltage to the second photovoltaic module.
US10965123B1
A detection and location-based active protection method for flexible DC distribution systems with multi-terminal distributed photovoltaic sources is disclosed. The disclosed protection method actively utilizes the coordinated control between local protection and the converters in the DC distribution system. The converter can then be modified to become an injection source with characteristic signal, providing a known fault signal to build a clear protection boundary. The disclosed protection method can distinguish the correct faulted area by calculating the harmonic impedance of the characteristic signals. Compared with existing DC protection techniques, this disclosed method does not require additional injection equipment and modification of the DC distribution system configuration, nor does it need high data sampling frequency. The disclosed technique is also unaffected by measuring noise and cable-distributed capacitance. The disclosed protection method is therefore feasible for industry application in a large and complex DC network.
US10965118B2
An EOS/ESD protection apparatus includes a voltage detection circuit, a controlling circuit having a switch unit, an inverter circuit, and a clamp transistor. The voltage detection circuit is configured to detect whether an over voltage event occurs in a power supply line to generate a switch control signal. The switch unit is turned on/off to generate a voltage control signal according to the switch control signal. The inverter circuit has an output and an input coupled to the voltage control signal transmitted from the controlling circuit. The clamp transistor has a control terminal coupled to the output of the inverter and is configured to be turned on when the over voltage event occurs in the power supply line.
US10965115B2
A vehicle power supply circuit includes; a resistor disposed between negative electrode side of the switch portion and positive electrode side of back lamps, of which positive electrode side is connected to the negative electrode side of the switch portion, and the negative electrode side is connected to the positive electrode side of the back lamps; and a rectifier which causes the current of the power supply to flow in one direction from the plurality of switch circuits to the back lamps, of which positive electrode side is connected to the negative electrode side of the plurality of switch circuits, and the negative electrode side is connected to the negative electrode side of the resistor and the positive electrode side of the back lamps.
US10965111B2
Implementations include a compartmentalized plug-in load center having connector receptacles for load circuit wiring connection to the load center and a plug-in back plate to connect the plug-in load center to a vertical power busway within a utility wall panel of a building, and a method for installing the load center in a building with a vertical power busway.
US10965109B2
A watertight electrical compartment for use in an irrigation device can include a compartment body having a chamber and a sealing section configured to mate with one or more sealing rings. A sealing cap can mate with the sealing section and/or the sealing rings to seal the chamber. A cap retainer can be advanced over at least a portion of the sealing cap. One of the compartment body and cap retainer can have internal threads to be screwed onto external threads of the other one of the compartment body and cap retainer. The cap retainer can also have a stopping feature to keep the sealing cap in its sealed position. The watertight electrical compartment can be used in a wireless flow sensor assembly, a battery operated irrigation controller, and/or a battery-operated central controller device, to provide irrigation control, and/or sensor information, without the need for AC power.
US10965106B2
A gas-insulated electrical equipment includes: a grounded tank filled with an insulating gas; a central conductor which is disposed inside the grounded tank and to which to apply a voltage; a high-resistance insulating portion which is disposed on an inner surface of the grounded tank and which is configured of an insulating material of high resistivity; a low-resistance insulating portion which is disposed on at least a partial front surface of the high-resistance insulating portion and which has a resistivity lower than that of the high-resistance insulating portion, and a non-linear resistance insulating portion which is disposed on at least a partial front surface of the low-resistance insulating portion and which is configured of a non-linear resistance material, which exhibits a non-linear resistivity relative to a change in electric field, and an insulating material of high resistivity, wherein the low-resistance insulating portion has a floating potential.
US10965105B2
A partition cover for a switchgear enclosure includes a main cover with a lip arranged along a first edge of the partition cover, a sliding cover with a second lip arranged along a second edge of the sliding cover, and a locking mechanism. The sliding cover is slidably supported on the main cover. The locking mechanism is fixed to the main cover and operably connected to the sliding cover, the locking mechanism is arranged to lock position of the sliding cover relative to the main cover to fix the partition cover within an interior of a switchgear enclosure. Switchgear enclosures and methods of emplacing and removing partition covers from within switchgear enclosures are also described.
US10965102B2
Provided are a structured light projector that generates and projects structured light, and an electronic apparatus including the structured light projector. The structured light projector includes an illuminator configured to emit light, a pattern mask configured to form structured light by partially transmitting and partially blocking incident light from the illuminator based on a pattern of the pattern mask, and a lens configured to project the structured light. The illuminator includes a plurality of illumination areas respectively facing a plurality of areas of the pattern mask, wherein intensities of lights respectively emitted by the plurality of illumination areas are different from one other.
US10965101B2
A plasmonic quantum well laser may be provided. The plasmonic quantum well laser includes a plasmonic waveguide and a p-n junction structure extends orthogonally to a direction of plasmon propagation along the plasmonic waveguide. Thereby, the p-n junction is positioned atop a dielectric material having a lower refractive index than material building the p-n junction, and the quantum well laser is electrically actuated. A method for building the plasmonic quantum well laser is also provided.
US10965100B2
Example embodiments disclose a tunable optical pair source (TOPS) configured to generate first and second output optical beams having respective first and second frequencies that are phase locked with each other. The TOPS may include a first laser, such as a tunable laser, configured to generate a first laser beam, a radio frequency (RF) oscillator configured to transmit an RF reference signal, a beam splitter in optical communication with the first laser, and an electro-optic modulator configured to modulate the second split beam with the RF reference signal to form a modulated beam having a first sideband comb comprising a plurality of harmonics. Additionally, the TOPS may include an optical filter configured to receive the modulated beam and output a filtered optical beam, and a second laser configured to generate a second laser beam at the second frequency, the second laser being configured to receive the filtered optical beam as a seed.
US10965098B2
A modulator integrated laser has a laser portion for emitting light and a modulation portion for modulating the light by an electric field absorption effect. The modulator integrated laser has a semiconductor substrate of a conductivity type in which the laser portion and the modulation portion are integrated. An impedance element with inductance and capacitance connected in parallel. The impedance element has a self-resonant characteristic exhibiting the highest impedance at a self-resonant frequency. The laser portion has first and second electrodes for a direct current voltage to be applied therebetween. The modulation portion has third and fourth electrodes for an alternate current voltage to be applied therebetween. The second electrode and the fourth electrode are electrically connected to each other through the semiconductor substrate. The impedance element is connected in series to the first electrode to minimize a flow of an alternate current.
US10965088B2
A method for generating a single-cavity dualcomb or multicomb for laser spectroscopy, the method comprising the steps of providing a laser system comprising a pump source, a gain medium, and a resonator having a spectral filter; spectrally filtering, by the spectral filter, light in the resonator and attenuating, in particular blocking, by the spectral filter, one or more wavelength bands at least one of which being located completely within the gain bandwidth of the laser system such that two or more at least partially separated spectral regions are provided; mode-locking the two or more at least partially separated spectral regions.
US10965087B2
Provided is a laser device that includes a laser chamber in which a pair of discharge electrodes are disposed; a line narrowing optical system including a grating disposed in a position outside the laser chamber; a beam expander optical system that increases a diameter of a light beam, outputted from the laser chamber and traveling toward the grating, in a first direction parallel to a discharge direction between the discharge electrodes and in a second direction orthogonal to the discharge direction; and a holding platform that is formed as a component separate from the laser chamber and the grating, holds the beam expander optical system, and forms along with the beam expander optical system a beam expander unit.
US10965082B2
A method for producing a plug, and to a plug. It is provided, in particular, that a plug connector and three plug contact rings are arranged in a casting mold, wherein the plug connector extends along a longitudinal axis and has a contact portion and a fastening portion connected integrally to the contact portion, and wherein a plug housing is formed by introducing a casting material into the casting mold so that the fastening portion is surrounded form-fittingly by the casting material and the contact portion protrudes out from the plug housing at a first end of the plug housing in the direction of the longitudinal axis.
US10965078B2
A gripper head for use in gripping a seal and positioning the seal in an electrical terminal. The gripper head has a mounting section, a compliant section and a gripping section. The compliant section extends from the mounting section. The compliant section has compliant legs having fixed ends proximate the mounting section and free ends. The compliant legs are spaced apart by compliant section slots. The gripping section extends from the compliant section. The gripping section has gripping legs which extend from the compliant legs. The gripping legs are spaced apart by gripping section slots. As the gripper head is moved into engagement with the seal, the gripping legs and the compliant legs are resiliently deformed causing the compliant legs and the gripping legs to apply a force to the seal to retain the seal on the gripping section of the gripper head.
US10965077B2
A device {i.e., a slip-ring or a homopolar motor/generator) (40, 50, 80) is adapted to provide electrical contact between a stator and a rotor (41, 83), and includes: a current-carrying brush-spring (31, 84) mounted on the stator, and having two opposite surfaces; a fibrous brush assembly (35, 69) mounted on the conductor, the brush assembly having a bundle of fibers (36, 71) arranged such that the tips of the fibers will engage the rotor for transferring electrical current between the stator and rotor; a ribbon (33, 85) of superconducting material mounted on each opposite surface of the current-carrying brush-spring and communicating with the stator and the brush assembly; and another ribbon (29, 86) of superconducting material mounted on the rotor. The device is submerged in a cryogenic fluid at a temperature below the transition temperatures of the superconducting materials such that the electrical resistivity of the device will be reduced and the current-transfer capability of the device will be increased.
US10965074B2
A system for the read-out of vehicle data via a diagnostic port, specifically an OBD plug connection of a vehicle, including a connector unit for a diagnostic port of a vehicle, and a gateway apparatus for communication with an air-conditioning installation of the vehicle, specifically a parking heater, wherein the connector unit, specifically the OBD plug connection, includes a connector body, having a plug-in side with first contacts for connection with the diagnostic port, and a connection side with second contacts, specifically for connection with a diagnostic device, and at least one branch feeder, wherein the branch feeder is brought out of the connector body from at least one of the first contacts, and is communicatively connected to the gateway apparatus.
US10965072B2
A power distribution system includes a busway and a bus plug. A mechanical assembly rotatably mounts the bus plug relative to the busway. The system includes a remote racking device including a mechanism having a first mechanical component coupled to the bus plug and a second mechanical component coupled to the busway. The remote racking device rotates the bus plug relative to the busway about a rotation axis defined by the mechanical assembly based on mechanical interaction of the first mechanical component and the second mechanical component. Methods of connecting and disconnecting a bus plug relative to a busway with a remote racking device are also provided.
US10965071B1
A flexible electrical receptacle system and method for installation is provided. The system includes at least two support bars affixed parallel to one another between two wall support members. A central bar is positioned between the two support bars and configured to move along a length of the parallel support bars. An electrical receptacle affixed to the central bar and configured to move along a length of the central bar.
US10965066B2
A connector arrangement comprising a connector and a cable connected to the connector, each comprising at least one conductor pair for transmitting a differential signal, wherein the cable comprises a first portion and a second portion, in which the conductor pair comprises electric contacts, and wherein the conductors are at a first mutual distance in the first portion and a second mutual distance in the second portion, the second mutual distance being greater than the first distance, wherein an intermediate portion is formed between the first portion and the second portion, in which intermediate portion the distance between the conductors of a conductor pair increases in the direction of an interface-side end of the connector, wherein the conductor pair is guided in an unshielded cable in the first portion, and wherein the conductors are surrounded by an external conductor in at least one part of the intermediate portion.
US10965065B2
An electrical connector module with openings in an insulative support selectively positioned to limit dielectric loss in a signal. The connector may include a first and second conductor including first and second sides between first and second edges. An insulative support holds the first conductor adjacent the second conductor and may have at least five pedestal portions, wherein the first pedestal portion contacts the first side of the first conductor, the second pedestal portion contacts the second side of the first conductor, the third pedestal portion contacts the first side of the second conductor, the fourth pedestal portion contacts the second side of the second conductor, and at least a portion of the fifth pedestal portion is disposed between two edges of the first and second conductors. The pedestal portions may have widths less than the widths of the first and second sides of the first and second conductors.
US10965063B2
A grounding member for maintaining a ground path in a cable connector includes, in one embodiment, an inner core configured to flex when a force is applied to the grounding member during operation of the connector. The grounding member further includes an outer conductive coating applied to the inner core. The outer conductive coating is configured to flex from a first state to a second state when a force is applied to the grounding member, so as to maintain a conductive path through the connector when the outer conductive coating flexes between the first and second states during operation of the connector.
US10965062B1
An electrical connector for use in an electrical connector system which controls cross talk, signal radiation and impedance. The electrical connector includes a plurality of modules having mating ends and mounting ends. Each of the modules of the plurality of modules has a conductive first housing. The first housing has at least one second housing recess and ground contact receiving channels provided in a first surface of the first housing. At least one second housing is provided in the at least one second housing recess. The at least one second housing is made of insulative material and has signal contact receiving channels provided in a first surface of the at least one second housing. Signal contacts are positioned in the signal contact receiving channels of the at least one second housing. Ground contacts are positioned in the ground contact receiving channels of the first housing.
US10965058B2
The present disclosure relates to a power connector which comprises an insulative housing and a terminal. The insulative housing defines a terminal receiving groove therein and comprises a stopping wall. The terminal is positioned in the terminal receiving groove and comprises a mating portion, a stopping portion and a wire connecting portion. The stopping portion abuts against the stopping wall and comprises a first horizontal portion and a second horizontal portion. The first horizontal portion comprises a first front end edge. The second horizontal portion comprises a second front end edge. A portion of a front end of the first horizontal portion and a portion of a front end of the second horizontal portion are cut off, therefore when the terminal clamps the wire, the first front end edge and the second front end edge do not splay forwardly and outwardly to protrude forwardly, but are parallel to each other or respectively extend backwardly, which thus can avoid the first front end edge and the second front end edge of the stopping portion from abutting against the stopping wall first due to the protruding.
US10965056B2
An e-machine is disclosed that comprises a stator, a terminal block, and a plurality of interface conductors. The stator is disposed inside a housing in a wet portion of the housing that contains transmission fluid. The terminal block is attached to the housing and is electrically connected to an inverter system controller of the e-machine. The terminal block is disposed in a dry portion of the housing that does not contain transmission fluid. The plurality of interface conductors each include a hollow conductive body, a stator lead lug on a first end connected to windings of the stator, and a busbar on a second end connected to the terminal block. A seal is assembled at an intermediate location in a groove on an outer surface of the hollow conductive body. A plug is assembled inside the hollow conductive body.
US10965055B2
A connector assembly having a pin and a housing. The pin having an insulator layer or material separating two adjacent electrical contacts. The electrical contacts can each include a contact band and a tab extending from the contact band. An electrical contact can be established with a spring contact and the contact band can at least partially surrounds the insulator around the lengthwise axis of the pin. Two electrical contacts can be positioned in an axial or longitudinal offset configuration.
US10965053B2
The present invention relates to an electrical contact element (1), that has a plurality of contact areas (21, 22), with a base body (6) made from a first material and a coating (7) applied to the base body (6) made from a coating material. In at least one area of the base body (6) within at least one contact area (21, 22) in each case the first material is removed and is at least partially replaced by a second material. The second material and the coating material each have a higher electrical conductivity than the first material.
US10965040B2
An antenna device is provided. The antenna device includes a first antenna pair. The first antenna pair includes a first antenna unit and a second antenna unit arranged juxtaposed to the first antenna unit. The first antenna unit includes a first membrane extending in a first longitudinal direction. The second antenna unit includes a second membrane extending in a second longitudinal direction. An angle between the first longitudinal direction and the second longitudinal direction is in a range from 75 to 105 degrees.
US10965038B2
A transmitting array antenna includes a second antenna group placed in a position inside a first antenna group in a first direction and a position different from the first antenna group in a second direction. A receiving array antenna includes a fourth antenna placed in a position outside a third antenna group arranged in the first direction and a position different from the third antenna group in the second direction. An interelement spacing between a receiving antenna of the third antenna group located at an end on a second side is identical to an interelement spacing in the first direction between a transmitting antenna of the first antenna group on the first side and each of the second antenna group. In a case where the first antenna group and the third antenna group are identical in position in the second direction, positions of antennas are different.
US10965032B2
A dielectric resonator antenna includes a dielectric resonator element, a ground plane, and a conductive feeding arrangement. The ground plane is connected with the dielectric resonator element, and is operable to generate a first electromagnetic radiation. The conductive feeding arrangement is operable to generate a second electromagnetic radiation. During operation, simultaneous generation of the first electromagnetic radiation and the second electromagnetic radiation provides a unilateral electromagnetic radiation.
US10965027B2
A method and apparatus for RF ripple correction in an antenna aperture are described. In one embodiment, the antenna comprises: an array of antenna elements having liquid crystal (LC); drive circuitry coupled to the array and having a plurality of drivers, each driver of the plurality of drivers coupled to an antenna element of the array and operable to apply a drive voltage to the antenna element; and radio-frequency (RF) ripple correction logic coupled to the drive circuitry to adjust drive voltages to compensate for ripple.
US10965024B2
Systems, methods, and apparatus for frequency routing based on orientation are disclosed. An example method includes receiving, by a playback device, an audio data stream. The example method includes determining, by the playback device, an orientation of the playback device. The example method includes routing, by the playback device, a first set of frequencies in the audio data stream to at least one of a plurality of speaker drivers based on the first orientation. The example method includes routing, by the playback device, a second set of frequencies in the audio data stream to the at least one of the plurality of speaker drivers based on the second orientation, wherein the first set of frequencies is different than the second set of frequencies.
US10965019B1
This invention provides a wireless transceiver device for retrofit conversion of non-wireless enabled electronic controllers and controlled host devices. This invention allows for the rotating of the wireless transceiver device allowing for the entire device to rotate around the connector axis. This functionality allows for the ability to rotate the wireless transceiver device 360 degrees or to any orientation that maximizes the available space around the host device or around the area of permanent or temporary installations of networks of single or multiple controllers and controlled devices. The inclusion of a stop pin washer plate may be combined with a rotation limiting washer to prevent the rotating assembly from moving freely around the 360 degrees of rotation.
US10965007B2
An antenna module includes a substrate having a first surface including a ground region and a feeder region; chip antennas mounted on the first surface of the substrate; and at least one patch antenna disposed inside of the substrate or at least partially disposed on a second surface of the substrate. The chip antennas include a body portion, a ground portion bonded to a first surface of the body portion, and a radiation portion bonded to a second surface of a body portion. The ground portion of each chip antenna is mounted on the ground region and the radiation portion of each chip antenna is mounted on the feeder region.
US10964999B2
The present disclosure discloses a mounting structure, an antenna device and a method for assembling the antenna device. The mounting structure is used for mounting a connector to a first fixing part and a second fixing part, and comprises: a main body portion which defines a hollow cavity for receiving the connector, a first flange arranged on an upper surface of the main body portion around the hollow cavity and a second flange arranged on the upper surface of the main body portion around the first flange and spaced apart from the first flange; a protective pad received in a protective pad receiving portion defined between the first flange and the second flange; a supporting component to be fixed to the second fixing part, the main body portion being fitted within the supporting component; and at least one fastener used for fastening the mounting structure to the first fixing part, so that the first flange comes into direct contact with the lower surface of the first fixing part.
US10964995B2
In accordance with one or more embodiments, a coupling system includes a plurality of dielectric couplers configured to generate, responsive to first electromagnetic waves received via a hollow waveguide, second electromagnetic waves along a surface of a transmission medium, wherein the plurality of dielectric couplers each have an end at differing azimuthal orientations relative to the transmission medium and wherein the second electromagnetic waves propagate along the surface of the transmission medium without requiring an electrical return path. A controller is configured to control a generation of the first electromagnetic waves in accordance with a first set of phases, wherein the second electromagnetic waves generated by the plurality of dielectric couplers combine on the surface of the transmission medium to propagate via a first selected wave mode.
US10964994B2
Disclosed herein is a nonreciprocal circuit element that includes a magnetic rotator, and a permanent magnet that applies a DC magnetic field to the magnetic rotator. The magnetic rotator includes a center conductor, a first ferrite core laminated on the center conductor, and a dielectric provided in a gap formed between the center conductor and the first ferrite core.
US10964991B2
The present disclosure relates to a tunable waveguide filter input/output coupling arrangement comprising a waveguide part, a coupling iris part and a tunable filter part. The waveguide part runs along a longitudinal extension and has a waveguide width extending perpendicular to the longitudinal extension, and is electrically connected to the tunable filter part by means of the coupling iris part which comprises an opening between the waveguide part and the tunable filter part. The opening is positioned at a certain position along the longitudinal extension. The waveguide part comprises a stub part that has a certain stub length along the longitudinal extension, between an electrical short-circuit end plate and an edge of the opening that is closest to the end plate, where the stub part also has a stub width extending perpendicular to the longitudinal extension.
US10964990B2
An electrical combination includes a battery pack and a power tool. The battery pack includes two battery pack connectors which are connected with the same electrode of a battery of the battery pack. A circuit of one battery pack connector has a resistance greater than that in another circuit of another battery pack connector. The power tool includes corresponding tool connectors. When the battery pack is connected with the power tool, the power tool is supplied with a small current by the battery pack firstly, and then is supplied with a large current, so the electric spark is eliminated when the terminals of the battery pack contact with the terminals of the power tool.
US10964989B2
A connection module to be assembled to a power storage element stack including power storage element arrays in each of which power storage elements including electrode terminals of a positive electrode and a negative electrode are arranged. The connection module includes: a plurality of bus bars that electrically connects the electrode terminals between the adjacent power storage elements; a plurality of bus bar housing parts each housing each of the bus bars; a plurality of first hinge linking parts that links the bus bar housing parts and expands and contracts in a direction where the power storage elements are arranged; a plurality of inter-array bus bars that electrically connects the electrode terminals of power storage element arrays; a plurality of inter-array bus bar housing parts each housing each of the inter-array bus bars; and angle adjusting part adjusting an inclination angle of each of the inter-array bus bar housing part.
US10964986B2
An object of the invention is to provide a separator for an electrochemical element in which the occurrence of fluff on the sheet surface thereof is suppressed and an internal short-circuit defect rate is low, and the invention provides a separator for an electrochemical element, comprising: a fibrillated solvent spun cellulose fiber; and a synthetic fiber, wherein the separator for an electrochemical element contains, as the synthetic fiber, from 5 to 40% by weight of a core-sheath type composite fiber having a fiber diameter of 6.0 μm or less which is composed of: a core component made of a resin having a melting point of 160° C. or more; and a sheath component made of polyethylene.
US10964982B2
A Rechargeable Metal-Air Battery Cell, a Battery Stack and Method of Manufacturing the Same A rechargeable metal-air battery cell, a battery stack and method of manufacturing the same are provided. The rechargeable metal-air battery cell includes a bipolar plate, an air cathode, a plenum frame and a metal anode. The bipolar plate defines a plurality of air channels. The air cathode abuts the bipolar plate such that the air cathode is in fluid communication with the air channels. The plenum frame includes a first major surface and a second major surface opposite the first major surface. The air cathode is adjacent the first major surface, and the metal anode is adjacent the second major surface of the plenum frame. The battery stack may include at least one rechargeable metal-air battery cell.
US10964980B2
The invention is directed towards an indicator circuit. The indicator circuit includes a ground plane; an antenna; a decoupler component; and an integrated circuit. The antenna includes at least one antenna trace; a first antenna terminal; and a second antenna terminal. The decoupler component includes a first decoupler component terminal and a second decoupler component terminal. The integrated circuit is electrically coupled to the first antenna terminal and the second antenna terminal. The integrated circuit is electrically coupled to the first decoupler component terminal. The second decoupler component terminal is electrically connected to the ground plane.
US10964976B2
An electrolyte solution for a lithium-ion battery is provided. The electrolyte solution contains at least a solvent and a lithium salt. The solvent contains at least methoxyacetone.
US10964972B2
The present invention relates to a Li-rich antiperovskite-coated LCO-based lithium complex, a method of preparing the same, and a positive electrode active material and a lithium secondary battery, both of which include the LCO-based lithium complex. When a lithium complex in which a coating layer of a compound having a lithium-rich antiperovskite (LiRAP) crystal structure is formed on surfaces of LCO-based particles is applied as the positive electrode active material, the lithium complex is favorable for batteries which are operated at a high voltage, has high lithium ion conductivity, and can be applied to lithium secondary batteries which are driven at a high temperature due to high thermal stability.
US10964964B2
A method and a system for controlling hydrogen supply for a fuel cell are provided. The method includes calculating a target hydrogen supply pressure, which is a target pressure value of hydrogen supplied to a fuel cell stack based on a required output. A fuel supply valve (FSV) duty is then adjusted based on the calculated target hydrogen supply pressure and modes are determined based on the FSV duty or actual hydrogen supply pressure measurements of a sensor. A hydrogen supply pressure measurement is calculated according to each of the determined modes and the FSV duty is corrected based on the calculated target hydrogen supply pressure and the hydrogen supply pressure measurement.
US10964960B2
A fuel cell stack is located in a front room of a fuel cell vehicle. The fuel cell stack is connected to a fuel gas guide passage extending to a widthwise central part in front of a windshield of the fuel cell vehicle. When a fuel gas is leaked from the fuel cell stack, the fuel gas is guided by the fuel gas guide passage and discharged from a discharge outlet formed in the widthwise central part through an opening formed in a hollow cover to the outside. The fuel gas guide passage is connected to a filter case in a fuel gas detector for fuel cells.
US10964956B2
A fuel cell stack assembly includes first and second bipolar plates, an active area membrane, and an optional subgasket. The first bipolar plate defines a first plurality of tunnels and the second bipolar plate defines a second plurality of tunnels. The second plurality of tunnels may be engaged with and nested between the first plurality of tunnels. The active area membrane may be disposed within an internal periphery of a subgasket between the first and second bipolar plates wherein the subgasket may, optionally, be positioned between the first and second plurality of tunnels.
US10964955B2
Methods and systems for providing battery backup power to a home or other building are disclosed. Methods and systems include a fluid container holding an electrolyte solution. The electrolyte solution is prevented from flowing through an array of galvanic cells having annular flow paths via a fluid flow control mechanism, such as a valve, which is energized by an external power source. When the external power source is removed, such as during a power outage, the fluid flow control mechanism is deenergized and electrolyte solution is allowed to flow through the galvanic cell array, generating electric current. Energy produced by the system then powers the home or other building until the external power source returns, which in turn closes the fluid flow control mechanism and ceases energy production by the system.
US10964948B2
A copolymer including a monomer A with a molar ratio a varying between around 0.01 and around 0.20, a monomer B with a molar ratio b varying between around 0.2 and around 0.4, and a monomer C with a molar ratio c varying between around 0.50 and around 0.70, the monomer A being a hydrophilic monomer including a pendant chain of poly(ethylene oxide) (POE) with low molar weight, the monomer B being a hydrophobic monomer with a glass transition temperature (Tg) of around −30° C. or less, the monomer C being a monomer that is more hydrophobic than the monomer B and having a glass transition temperature (Tg) of around 80° C. or more, said monomers being organised in a hydrophilic segment, a hydrophobic segment and an intermediate segment located between the hydrophilic segment and the hydrophobic segment.
US10964935B1
Compositions, anodes, and batteries are described herein and incorporate particulates that feature carbon matrices having embedded therein a plurality of amorphous silicon nanoparticles. One embodiment includes a particulate composed of a porous carbon matrix and a plurality of amorphous silicon nanoparticles affixed to an interior surface of the porous carbon matrix and adjacent to an open volume that defines specific pores. Yet another embodiment is an anode active particulate that features a plurality of amorphous silicon nanoparticles affixed to interior surfaces of a porous carbon matrix, where the anode active particulate has a “Standard-FCE” value that is about 5% greater than a “Standard-FCE” value of an analogous anode active particle having crystalline silicon nanocrystals.
US10964921B2
A battery includes a case having a feedthrough port, a feedthrough assembly disposed in the feedthrough port, and a cell stack disposed within the case. The feedthrough port includes an inner conductor and an insulator core separating the inner conductor from the case. The cell stack includes an anode, a cathode, and a separator insulating the anode from the cathode, wherein the anode and cathode are offset from one another. An insulating boot surrounding the cell stack insulates the cell stack from the case. The insulating boot has an opening configured to receive therein the feedthrough assembly, which may include overmolded insulation. The interior surfaces and interior walls of the battery case may be thermal spray-coated with a dielectric material to prevent lithium dendrite formation between cathode and anode surfaces.
US10964911B2
A thin-film encapsulation structure of an active-matrix organic light-emitting, diode (AMOLED) is provided, and a touch electrode layer is disposed thereon. The thin-film encapsulation structure includes a first ceramic layer, an organic layer, and a second ceramic layer. The second ceramic layer has a first film layer and a second film layer; a side end of the second film layer is contracted inward so that a recessed first step portion is defined at the side end of the second film layer and a side end of the first film layer. The second ceramic layer is changed into a design of a multi-layer stacked structure, and a recessed step portion is formed at the side ends of the upper and lower layers. Therefore, the traces can be placed in a larger space and resistant to line breakage, thereby ensuring the yield and product performance.
US10964905B2
It is proposed an organic light emitting diode (OLED) cell, comprising a cathode, an anode, the anode being positioned on a substrate, and wherein the organic light emitting diode cell further comprises between said cathode and said anode, an emissive layer and an conductive layer, that generate light when a difference of potential occurs between said cathode and said anode. The organic light emitting diode (OLED) cell further comprises a diffusion layer comprising a set of right circular hollow cylinders, wherein each right circular hollow cylinder being defined by at least a parameter R, named an external radius, and a parameter r, named an internal radius, wherein said parameter R is comprised in a first range [ λ - 30 100 λ ; λ + 30 100 λ ] with λ being a wavelength of an electromagnetic wave generated by said organic light emitting diode (OLED) cell, and wherein said parameter r is defined such that in a 1 - ( r R ) 2 is comprised in a second range [0.6; 0.8], and wherein each right circular hollow cylinder has a height that is comprised in a third range [ 0.2 λ n ; 0.4 λ n ] , wherein n corresponds to a refractive index of said diffusion layer.
US10964903B2
To increase emission efficiency of a fluorescent light-emitting element by efficiently utilizing a triplet exciton generated in a light-emitting layer. The light-emitting layer of the light-emitting element includes at least a host material and a guest material. The triplet exciton generated from the host material in the light-emitting layer is changed to a singlet exciton by triplet-triplet annihilation (TTA). The guest material (fluorescent dopant) is made to emit light by energy transfer from the singlet exciton. Thus, the emission efficiency of the light-emitting element is improved.
US10964894B2
The present invention relates to carbazole derivatives, especially for use in electronic devices. The invention further relates to a process for preparing the compounds of the invention and to electronic devices comprising these.
US10964889B2
A deposition mask includes a first area defining a clamping portion at ends of the deposition mask and to which a force is applied to extend the deposition mask in a length direction thereof, a recess area adjacent to the first area and defining a recess at the ends; and a pattern portion including a plurality of pattern holes through which a deposition material passes. Along the length direction, a plurality of first pattern portions are arranged in the first area and a plurality of second pattern portions arranged in the recess area. The force applied extends the first area and does not extend the recess area. The force not applied defines non-extended positions of the pattern portions, and for the non-extended positions of the first and second pattern portions, a first distance between adjacent first pattern portions is less than a second distance between adjacent second pattern portions.
US10964885B2
This spin current magnetization rotational type magnetoresistive element includes a magnetoresistive effect element having a first ferromagnetic metal layer having a fixed magnetization orientation, a second ferromagnetic metal layer having a variable magnetization orientation, and a non-magnetic layer sandwiched between the first ferromagnetic metal layer and the second ferromagnetic metal layer, and spin-orbit torque wiring which extends in a direction that intersects the stacking direction of the magnetoresistive effect element, and is connected to the second ferromagnetic metal layer, wherein the electric current that flows through the magnetoresistive effect element and the electric current that flows through the spin-orbit torque wiring merge or are distributed in the portion where the magnetoresistive effect element and the spin-orbit torque wiring are connected.
US10964882B2
A bonding layer 3 is formed over a piezoelectric material substrate, and the bonding layer is made of one or more materials selected from the group consisting of silicon nitride, aluminum nitride, alumina, tantalum pentoxide, mullite, niobium pentoxide and titanium oxide. A neutralized beam is irradiated onto a surface of the bonding layer and a surface of a supporting body to activate the surface of the bonding layer and the surface of the supporting body. The surface of the bonding layer and the surface of the supporting body are bonded by direct bonding.
US10964880B2
A microphone including a casing having a front wall, a back wall, and a side wall joining the front wall to the back wall, a transducer mounted to the front wall, the transducer including a substrate and a transducing element, the transducing element having a transducer acoustic compliance dependent on the transducing element dimensions, a back cavity cooperatively defined between the back wall, the side wall, and the transducer, the back cavity having a back cavity acoustic compliance. The transducing element is dimensioned such that the transducing element length matches a predetermined resonant frequency and the transducing element width, thickness, and elasticity produces a transducer acoustic compliance within a given range of the back cavity acoustic compliance.
US10964878B2
A piezoelectric composition comprises a plurality of crystal particles, wherein the piezoelectric composition includes bismuth, iron, barium, titanium, and oxygen; the crystal particle include a core and a shell having a contents of bismuth higher than that in the core and covering the core; and the total area of the cross sections of the cores exposed to the cross section of the piezoelectric composition is expressed as SCORE, the total area of the cross sections of the shells exposed to the cross section of the piezoelectric composition is expressed as SSHELL, and 100·SCORE/(SCORE+SSHELL) is 50 to 90.
US10964871B2
The present invention relates to a micro LED structure and a method of manufacturing the same. More particularly, the present invention relates to a micro LED structure and a method of manufacturing the same, the micro LED structure including: a micro LED; a circuit board driving the micro LED; and an anisotropic conductive anodic oxide film provided between the micro LED and the circuit board to electrically connect the circuit board and the micro LED. According to the present invention, without applying an external force (thermocompression bonding) to the anisotropic conductive anodic oxide film, it is possible to electrically connect the circuit board and the micro LED. In addition, it is possible to obtain characteristics such as uniform conductivity in a vertical direction and heat dissipation.
US10964867B2
Embodiments relate to using flux or underfill as a trapping layer for temporarily attaching light emitting diodes (LEDs) to a substrate and heating to simultaneously bond multiple LEDs onto the substrate. The flux or underfill may be selectively coated at the ends of electrodes of the LEDs prior to placing the LEDs on the substrate. Due to adhesive properties of the flux or underfill, multiple LEDs can be placed on and attached to the substrate prior to performing the bonding process. Once LEDs are placed on the substrate, the flux or underfill facilitates formation of metallic contacts between electrodes of the LED and contacts of the substrate during the bonding process. By using the flux or underfill, the formation of metallic contacts can be performed even without applying pressure.
US10964866B2
An adaptive electrical routing system for constructing an LED device. The system takes into account placement errors and tolerance regions for connection of one or more LEDs on a substrate. An optical device captures an image (e.g., comprising positional data of components of the LED device) of the LED device showing the actual placement of LEDs on the substrate and transfers the image to an analysis program. A customized pattern (e.g., a customized electrical routing pattern) can be created in one of several possible ways.
US10964846B2
A semiconductor light emitting device includes a first semiconductor layer of a first conductivity type on a substrate, an active layer on the first semiconductor layer, a second semiconductor layer of a second conductivity type on the active layer, the second semiconductor layer being doped with magnesium (Mg), and having an upper surface substantially parallel to an upper surface of the substrate and a side surface inclined with respect to the upper surface of the substrate, and a third semiconductor layer of the second conductivity type on the second semiconductor layer, the third semiconductor layer being doped with magnesium (Mg) at a concentration different from that of the second semiconductor layer, and having an upper surface substantially parallel to the upper surface of the substrate and a side surface inclined with respect to the upper surface of the substrate.
US10964843B2
An patterned Si substrate-based LED epitaxial wafer and a preparation method therefor, the LED epitaxial wafer comprising: a patterned Si substrate (1) and an Al2O3 coating (2) growing on the patterned Si substrate (1); sequentially growing on the Al2O3 coating (2) are a nucleating layer (3), a first buffer layer (4), a first insertion layer (5), a second buffer layer (6), a second insertion layer (7), an n-GaN layer (8), a quantum well layer (9), a p-GaN layer (10), an n-electrode (14) electrically connected to the n-GaN layer and a p-electrode (13) electrically connected to the p-GaN layer. The present invention is suitable for the preparation of large-sized LED epitaxial wafers. Furthermore, the crystal quality is improved, and the light extraction efficiency of the LED die is improved.
US10964832B2
An energy storage device comprising a substrate comprising a series of grooves. Each groove having a first and a second face. Wherein there is a capacitor material in each groove of the series of grooves.
US10964813B2
The present disclosure relates to the technical field of semiconductors, and discloses a semiconductor device and a manufacturing method therefor. The method includes: providing a substrate structure, where the substrate structure includes: a substrate having a first device region and a second device region, a first dummy gate structure at the first device region, a second dummy gate structure at the second device region, and an LDD region below the first dummy gate structure. The first dummy gate structure includes a first dummy gate dielectric layer at the first device region, a first dummy gate on the first dummy gate dielectric layer, and a first spacer layer at a side wall of the first dummy gate. The second dummy gate structure includes a second dummy gate dielectric layer at the second device region, a second dummy gate on the second dummy gate dielectric layer, and a second spacer layer at a side wall of the second dummy gate. The method further includes removing the first dummy gate; etching back the first spacer layer to reduce a thickness of the first spacer layer; removing an exposed portion of the first dummy gate dielectric layer to form a first trench; and removing the second dummy gate and exposed second dummy gate dielectric layer to form a second trench.
US10964812B2
A method for fabricating a semiconductor device includes forming a vertical field-effect transistor (FET) device including a plurality of first fin structures in a vertical FET device area of a substrate, and forming an input/output (IO) FET device including at least two second fin structures in an IO FET device area of the substrate. The at least two fin structures are connected by a channel having a length determined based on at least one voltage for implementing the IO FET device. Forming the vertical FET and IO FET devices includes selectively exposing a portion of the IO FET device area by selectively removing a portion of a first spacer formed on the substrate in the IO FET device area.
US10964809B2
A semiconductor device comprises: a cell region that includes a semiconductor element; an outer peripheral region that surrounds an outer periphery of the cell region; a substrate that has a front surface and a back surface, and is made of a semiconductor of a first or second conductivity type; a first conductivity layer that is formed on the front surface of the substrate and made of the semiconductor of the first conductivity type having a lower impurity concentration than impurity concentration of the substrate; a first electrode that is provided on an opposite side of the substrate across the first conductivity layer, the first electrode being provided in the semiconductor element; and a second electrode that is placed toward the back surface of the substrate, the second electrode being provided in the semiconductor element.
US10964808B2
A semiconductor device includes trench gate structures that extend from a first surface into a semiconductor body of silicon carbide. The trench gate structures include a gate electrode and are spaced apart from one another along a first horizontal direction and extend into a body region with a longitudinal axis parallel to the first horizontal direction. First sections of first pn junctions between the body regions and a drift structure are tilted to the first surface and parallel to the first horizontal direction. Source regions form second pn junctions with the body regions. A gate length of the gate electrode along a second horizontal direction orthogonal to the first horizontal direction is greater than a channel length between the first sections of the first pn junctions and the second pn junctions.
US10964800B2
Semiconductor devices having fin-end stress-inducing features, and methods of fabricating semiconductor devices having fin-end stress-inducing features, are described. In an example, a semiconductor structure includes a semiconductor fin protruding through a trench isolation region above a substrate. The semiconductor fin has a top surface, a first end, a second end, and a pair of sidewalls between the first end and the second end. A gate electrode is over a region of the top surface and laterally adjacent to a region of the pair of sidewalls of the semiconductor fin. The gate electrode is between the first end and the second end of the semiconductor fin. A first dielectric plug is at the first end of the semiconductor fin. A second dielectric plug is at the second end of the semiconductor fin.
US10964795B2
A method includes forming a gate stack over a semiconductor region, and forming a first gate spacer on a sidewall of the gate stack. The first gate spacer includes an inner sidewall spacer, and a dummy spacer portion on an outer side of the inner sidewall spacer. The method further includes removing the dummy spacer portion to form a trench, and forming a dielectric layer to seal a portion of the trench as an air gap. The air gap and the inner sidewall spacer in combination form a second gate spacer. A source/drain region is formed to have a portion on an outer side of the second gate spacer.
US10964790B1
The present invention teaches a TFT substrate manufacturing method and a TFT substrate. The method configures contact region vias in the source/drain contact regions at two ends of the active layer, provides buffer layer troughs in the buffer layer beneath the contact region vias, and forms undercut structure between the buffer layer troughs and the active layer around the contact region vias, thereby separating the transparent conductive layer at the contact region vias, and extending the source/drain electrodes to contact the source/drain contact regions of the active layer from below through the buffer layer troughs. The present invention therefore prevents the occurrence of Schottky contact barrier resulted from the contact between poly-Si and ITO in the 7-mask process by letting the source/drain electrodes to directly contact and form ohmic contact with the source/drain contact regions of the active layer, thereby enhancing the electronic mobility of TFT devices.
US10964786B2
An InP substrate that is a group III-V compound semiconductor substrate includes particles of greater than or equal to 0.19 μm in particle size at less than or equal to 0.22 particles/cm2 or particles of greater than or equal to 0.079 μm in particle size at less than or equal to 20 particles/cm2 on the main surface. An epilayer-attached InP substrate that is an epilayer-attached group III-V compound semiconductor substrate includes the InP substrate mentioned above and an epitaxial layer disposed on the main surface of the InP substrate, and includes LPDs of greater than or equal to 0.24 μm in circle-equivalent diameter at less than or equal to 10 defects/cm2 or LPDs of greater than or equal to 0.136 μm in circle-equivalent diameter at less than or equal to 30 defects/cm2 on the main surface in a case where the epitaxial layer has a thickness of 0.3 μm.
US10964785B2
The object of the present invention is to enhance the device yield of SiC epitaxial wafers. The SiC epitaxial wafer includes a drift layer which is a SiC epitaxial layer. The drift layer has a film thickness of 18 μm or more and 350 μm or less and has arithmetic average roughness of 0.60 nm or more and 3.00 nm or less, and the impurity concentration thereof is 1×1014/cm3 or more and 5×1015/cm3 or less.
US10964781B2
The present disclosure, in some embodiments, relates to a high voltage resistor device. The device includes a buried well region disposed within a substrate and having a first doping type. A drift region is disposed within the substrate and contacts the buried well region. The drift region has the first doping type. A body region is disposed within the substrate and has a second doping type. The body region laterally contacts the drift region and vertically contacts the buried well region. An isolation structure is over the drift region and a resistor structure is over the isolation structure.
US10964780B2
The semiconductor device includes a semiconductor substrate of first conductivity type including a cell area and a peripheral area surrounding cell area on a principal surface thereof, a first diffusion layer which is disposed in peripheral area, surrounds the cell area and has a second conductivity type different from the first conductivity type, an electrode which is disposed in the peripheral area, is in contact with the principal surface through an opening provided in an insulating member and is connected to the first diffusion layer, and a second diffusion layer of the first conductivity type which is formed on the principal surface of a region enclosed in the electrode distant from the first diffusion layer when viewed in a direction perpendicular to the principal surface and includes a linear portion having a first width and a curved portion having a portion with a second width greater than the first width.
US10964775B2
A display panel having a low-resistance conductive layers is disclosed. An example display panel includes a first conductive layer having a first layer, a second layer, a third layer, a fourth layer, and a fifth layer that are sequentially stacked with the first layer being electrically conductive with the fifth layer, and a second conductive layer that is disposed on the first conductive layer and that in contact with the fifth layer. The first layer and the third layer include a first metal. Further, the second layer includes a second metal that is different from the first metal. Still further, the fourth layer includes the first metal and oxygen in a first composition ratio, and the fifth layer includes the first metal and oxygen in a second composition ratio with the first composition ratio and the second composition ratio being different from each other.
US10964772B2
An OLED plate comprises: a substrate; a plurality of OLED devices, disposed on one side of the substrate and located in the display area; and an auxiliary cathode, disposed on the one side of the substrate and at least located in the peripheral area. Each of the OLED devices includes a reflective anode, an organic material functional layer and a transparent cathode disposed in a direction distal from the substrate in sequence. A portion of the auxiliary cathode located in the peripheral area is electrically connected to transparent cathodes of the plurality of OLED devices, and resistivity of the auxiliary cathode is less than resistivity of a transparent cathode of the plurality of OLED devices.
US10964761B2
A display device may include an active area including a first area having a special-form portion and a second area not having a special-form portion and a bezel area including a third area close to the first area and having a special-form portion and a fourth area close to the second area and not having a special-form portion. Furthermore, the display device may include a first power supply electrode positioned in the third area of the bezel area, a semiconductor pattern positioned in the third area of the bezel area and overlapping the first power supply electrode, and a plurality of dummy gate lines positioned between the semiconductor pattern and the first power supply electrode and overlapping the semiconductor pattern to form a first compensation capacitance and overlapping the first power supply electrode to form a second compensation capacitance.
US10964758B2
A pixel unit, a display panel, a display device and a method of manufacturing a pixel unit. The pixel unit includes a first sub-pixel unit and a second sub-pixel unit, each sub-pixel unit includes a first electrode, an emission layer, and a second electrode stacked on a substrate. An emission lifespan of the emission layer of the first sub-pixel unit is smaller than that of the emission layer of the second sub-pixel unit. An area of an orthographic projection of the emission layer of the first sub-pixel unit on the substrate is equal to that of the emission layer of the second sub-pixel unit on the substrate. An area of an orthographic projection of the first electrode of the first sub-pixel unit on the substrate is greater than an area of an orthographic projection of the first electrode of the second sub-pixel unit on the substrate.
US10964749B2
A switching device including a GaN substrate; an unintentionally doped GaN layer on a first surface of the GaN substrate; a regrown unintentionally doped GaN layer on the unintentionally doped GaN layer; a regrowth interface between the unintentionally doped GaN layer and the regrown unintentionally doped GaN layer; a p-GaN layer on the regrown unintentionally doped GaN layer; a first electrode on the p-GaN layer; and a second electrode on a second surface of the GaN substrate.
US10964748B1
A magnetoresistive memory device includes a first electrode, a second electrode, and a layer stack containing an electric field-modulated magnetic transition layer and a ferroelectric insulator layer located between the first electrode and the second electrode, The electric field-modulated magnetic transition layer includes a non-metallic magnetic material having a ferromagnetic state and a non-ferromagnetic state with a state transition therebetween that depends on an external electric field.
US10964746B2
Some embodiments of the present disclosure relate to a method in which a functional layer is formed over an upper semiconductor surface of a semiconductor substrate, and a capping layer is formed over the functional layer. A first etchant is used to form a recess through the capping layer and through the functional layer. The recess has a first depth and exposes a portion of the semiconductor substrate there through. A protective layer is formed along a lower surface and inner sidewalls of the recess. A second etchant is used to remove the protective layer from the lower surface of the recess and to extend the recess below the upper semiconductor surface to a second depth to form a deep trench. To prevent etching of the functional layer, the protective layer remains in place along the inner sidewalls of the recess while the second etchant is used.
US10964740B2
An image sensor includes a semiconductor substrate having a first surface and a second surface opposite to the first surface, a photoelectric conversion layer in the semiconductor substrate, transistors on the first surface of the semiconductor substrate, a first interlayer insulation layer on the transistors, a first lower pad electrode and a second lower pad electrode spaced apart from the first lower pad electrode on the first interlayer insulation layer, a mold insulation layer on the first and second lower pad electrodes, first and second lower electrodes in the mold insulation layer, a dielectric layer on the first and second lower electrodes, an upper electrode on the dielectric layer, and an upper pad electrode connected to the upper electrode and including a different conductive material from the first and second lower pad electrodes. The first lower electrodes are on the first lower pad electrode, and the second lower electrodes are on the second lower pad electrode.
US10964738B2
An image sensor includes one or more photodiodes disposed in a semiconductor material to receive image light and generate image charge, and a floating diffusion to receive the image charge from the one or more photodiodes. One or more transfer transistors is coupled to transfer image charge in the one or more photodiodes to the floating diffusion, and a source follower transistor is coupled to amplify the image charge in the floating diffusion. The source follower includes a gate electrode (coupled to the floating diffusion), source and drain electrodes, and an active region disposed in the semiconductor material between the source and drain electrodes. A dielectric material is disposed between the gate electrode and the active region and has a first thickness and a second thickness. The second thickness is greater than the first thickness, and the second thickness is disposed closer to the drain electrode than the first thickness.
US10964737B2
A photoelectric conversion device includes: a light absorption layer that has a light entrance surface and a compound semiconductor material; a first electrode provided for each of the pixels, in opposed relation to an opposite surface to the light entrance surface; a first semiconductor layer of a first conductive type, with a bandgap energy larger than bandgap energy of the light absorption layer and that is provided between the light absorption layer and the first electrode; a second semiconductor layer of a second conductive type, with a bandgap energy larger than the bandgap energy of the light absorption layer and that is provided between the first semiconductor layer and the light absorption layer; and a first diffusion region of the second conductive type, in which the first diffusion region is provided between adjacent ones of the pixels and across the second semiconductor layer and the light absorption layer.
US10964736B2
An image sensing device is disclosed. The image sensing device includes a semiconductor substrate including an active region, a first impurity region and a second impurity region formed in the active region, a photoelectric conversion region disposed over the semiconductor substrate to be directly coupled to the first impurity region and configured to generate photocharges in response to incident light and transmit the generated photocharges to the first impurity region, a switching element disposed coupled to the first impurity region and the second impurity region and configured to transmit the photocharges stored in the first impurity region to the second impurity region, an insulation structure disposed on sides of the photoelectric conversion region and a plurality of conductive lines disposed in the insulation structure and configured to read out an electrical image signal corresponding to the photocharges generated by the photoelectric conversion region.
US10964732B2
Thin-film electronic devices such as LED devices and field effect transistor devices are fabricated using a non-destructive epitaxial lift-off technique that allows indefinite reuse of a growth substrate. The method includes providing an epitaxial protective layer on the growth substrate and a sacrificial release layer between the protective layer and an active device layer. After the device layer is released from the growth substrate, the protective layer is selectively etched to provide a newly exposed surface suitable for epitaxial growth of another device layer. The entire thickness of the growth substrate is preserved, enabling continued reuse. Inorganic thin-film device layers can be transferred to a flexible secondary substrate, enabling formation of curved inorganic optoelectronic devices.
US10964729B2
A liquid crystal display device with high aperture ratio is provided. The liquid crystal display device includes a first conductive layer, a second conductive layer, and a liquid crystal element where a liquid crystal layer is positioned between a third conductive layer and a fourth conductive layer. The first to fourth conductive layers transmit visible light and include a region where the first to fourth conductive layers overlap with each other. The second conductive layer is positioned between the first conductive layer and the third conductive layer. An insulating layer is positioned between the first conductive layer and the second conductive layer. An insulating layer is positioned between the second conductive layer and the third conductive layer. Therefore, two capacitors each including the second conductive layer as an electrode are stacked. The two capacitors transmit light and overlap with the liquid crystal element; thus, aperture ratio can be increased.
US10964728B2
To make the dimension of an electrostatic protection circuit small with the same maintained high in sensitivity. The electrostatic protection circuit is of the configuration that a first diode and a second diode are connected in series, wherein a semiconductor layer owned by each diode is configured to be sandwiched between a gate electrode and a conductive light shielding film. The light shielding film is formed to overlap with the semiconductor layer and has a wider area than the semiconductor layer. This results in having a gate covering the semiconductor layer from an upper side and a back gate covering the semiconductor layer from a lower side, so that the sensitivity can be maintained high irrespective of decreasing the electrostatic protection circuit in dimension.
US10964717B2
Methods and apparatus for forming a plurality of nonvolatile memory cells are provided herein. In some embodiments, the method, for example, includes forming, on a substrate, a stack of alternating layers including a first layer of material and a second layer of material different from the first layer of material; forming a memory hole in the stack of alternating layers of the first layer of material and the second layer of material; depositing a layer of blocking oxide on sides defining the memory hole; depositing a layer of silicon atop the layer of blocking oxide to form a silicon channel; deposit core oxide to fill the silicon channel; removing the first layer of material to form spaces between the alternating layers of the second material; and one of depositing a third layer of material to partially fill the spaces to leave air gaps therein or depositing a fourth layer of material to fill the spaces.
US10964709B2
A method for integrating a stack of fins to form an electrically erasable programmable read-only memory (EEPROM) device is presented. The method includes forming a stack of at least a first fin structure and a second fin structure over a semiconductor substrate, forming a sacrificial gate straddling the stack of at least the first fin structure and the second fin structure, forming a first conductivity type source/drain region to the first fin structure, and forming a second conductivity type source/drain to the second fin structure. The method further includes removing the sacrificial gate to form a gate opening, and forming a single floating gate in communication with a channel for each of the first and second fin structures.
US10964703B2
A method for fabricating a semiconductor device is provided. The method includes the actions of: providing a substrate comprising a preliminary pattern formed thereon; forming an opening through the preliminary pattern to expose an etch stop layer in the preliminary pattern; forming a dielectric layer on a sidewall of the opening; performing a first etching process to penetrate the etching stop layer and form a hole; performing a second etching process to expand a portion of the hole in the substrate; removing the dielectric layer; and depositing a conductive preliminary pattern on the sidewall of the opening and in the hole.
US10964688B2
A semiconductor device 100 has a power transistor N1 of vertical structure and a temperature detection element 10a configured to detect abnormal heat generation by the power transistor N1. The power transistor N1 includes a first electrode 208 formed on a first main surface side (front surface side) of a semiconductor substrate 200, a second electrode 209 formed on a second main surface side (rear surface side) of the semiconductor substrate 200, and pads 210a-210f positioned unevenly on the first electrode 208. The temperature detection element 10a is formed at a location of the highest heat generation by the power transistor N1, the location (near the pad 210b where it is easiest for current to be concentrated) being specified using the uneven positioning of the pads 210a-210f.
US10964685B2
An integrated circuit includes a cell layer, a first metal layer, a first conductive via, and a second conductive via. The cell layer includes first and second cells, in which the first cell is separated from the second cell by a non-zero distance. The first metal layer includes a first conductive feature and a second conductive feature, the first conductive feature overlaps the first cell and does not overlap the second cell, and the second conductive feature overlaps the second cell and does not overlap the first cell, in which the first conductive feature is aligned with the second conductive feature along lengthwise directions of the first and second conductive features. The first conductive via interconnects the cell layer and the first conductive feature of the first metal layer. The second conductive via interconnects the cell layer and the second conductive feature of the first metal layer.
US10964684B2
A method of modifying an integrated circuit includes operations related to identifying at least two fin-containing functional areas of the integrated circuit, generating a performance curve for each fin-containing functional area of the integrated circuit for each fin height of a series of fin heights, and determining whether an inflection point exists for each performance curve. The method further includes operations related to selecting a value of a performance characteristic for each of the fin-containing functional areas, the selected value having a corresponding fin height in each of the fin-containing functional areas, modifying each fin-containing functional area to have the fin height corresponding to the selected value of the performance characteristic; and combining the modified fin-containing functional areas to form a modified integrated circuit.
US10964679B2
A display apparatus includes: a display substrate; a light-emitting diode (“LED”) disposed on the display substrate and which emits light; a passivation layer disposed on the display substrate and surrounding the LED; a first conductive layer disposed on the LED and the passivation layer; and a capping layer disposed on the LED and which adjusts a proceeding path of light emitted from the LED, where the first conductive layer includes a first region which overlaps the capping layer and a second region which does not overlap the capping layer, and the first region and the second region of the first conductive layer have different light characteristics from each other.
US10964676B2
An integrated circuit package comprising a first substrate having a cavity; a second substrate; and one or more semiconductor device(s) and/or passive component (s) are coupled to the second substrate. The cavity is formed using two opposite side walls of the first substrate where two opposite sides of the cavity are kept open, the one or more semiconductor device(s) and/or passive component(s) is/are electrically coupled using redistribution layers, and the second substrate is located inside the cavity of the first substrate.
US10964673B2
Some embodiments of the present disclosure provide a semiconductor device. The semiconductor device includes: a bottom package; wherein an area of a contact surface between the conductor and the through via substantially equals a cross-sectional area of the through via, and the bottom package includes: a molding compound; a through via penetrating through the molding compound; a die molded in the molding compound; and a conductor on the through via. An associated method of manufacturing the semiconductor device is also disclosed.
US10964672B2
The present disclosure relates to a microelectronics package with vertically stacked flip-chip dies, and a process for making the same. The disclosed microelectronics package includes a module board, a first thinned flip-chip die with a through-die via, a second flip-chip die with a package contact at the bottom, and a mold compound. Herein, a top portion of the through-die via is exposed at top of the first thinned flip-chip die. The first thinned flip-chip die and the mold compound reside over the module substrate. The mold compound surrounds the first thinned flip-chip die and extends above the first thinned flip-chip die to define an opening. The second flip-chip die, which has a smaller plane size than the first thinned flip-chip die, resides within the opening and is stacked with the first thinned flip-chip die by coupling the package contact to the exposed top portion of the through-die via.
US10964666B2
A system and method for packaging semiconductor device is provided. An embodiment comprises forming vias over a carrier wafer and attaching a first die over the carrier wafer and between a first two of the vias. A second die is attached over the carrier wafer and between a second two of the vias. The first die and the second die are encapsulated to form a first package, and at least one third die is connected to the first die or the second die. A second package is connected to the first package over the at least one third die.
US10964664B2
Devices and techniques include process steps for preparing various microelectronic components for bonding, such as for direct bonding without adhesive. The processes include providing a first bonding surface on a first surface of the microelectronic components, bonding a handle to the prepared first bonding surface, and processing a second surface of the microelectronic components while the microelectronic components are gripped at the handle. In some embodiments, the processes include removing the handle from the first bonding surface, and directly bonding the microelectronic components at the first bonding surface to other microelectronic components.
US10964663B2
A method includes bringing into contact respective first sides of a plurality of dies and a die attach film on a major surface of a carrier wafer, and simultaneously heating portions of the die attach film contacting the plurality of dies in order to simultaneously bond the plurality of dies to the die attach film.
US10964654B2
A substrate or semiconductor device, semiconductor device assembly, and method of forming a semiconductor device assembly that includes a barrier on a solder cup. The semiconductor device assembly includes a substrate disposed over another substrate. At least one solder cup extends from one substrate towards an under bump metal (UBM) on the other substrate. The barrier on the exterior of the solder cup may be a standoff to control a bond line between the substrates. The barrier may reduce solder bridging during the formation of a semiconductor device assembly. The barrier may help to align the solder cup with a UBM when forming a semiconductor device assembly and may reduce misalignment due to lateral movement of substrates and/or semiconductor devices.
US10964645B2
An electronic component including a thin-film shield layer includes a wiring substrate, surface mount devices mounted to a first principal surface of the wiring substrate, a metal thin-film shield layer, and a magnetic metal thin-film shield layer. The metal thin-film shield layer includes a nonmagnetic metal material and entirely covers the surface mount devices at the top surface side and lateral surface side thereof. The metal thin-film shield layer includes a top surface portion and a lateral surface portion. The magnetic metal thin-film shield layer includes a magnetic metal material and covers the top surface portion and the lateral surface portion of the metal thin-film shield layer, including an entire edge portion at which the top surface portion and the lateral surface portion are joined to each other.
US10964642B2
A semiconductor module is disclosed. In one example, the module includes a carrier, at least one semiconductor transistor disposed on the carrier, at least one semiconductor diode disposed on the carrier, at least one semiconductor driver chip disposed on the carrier, a plurality of external connectors, and an encapsulation layer covering the carrier, the semiconductor transistor, the semiconductor diode, and the semiconductor driver chip. The semiconductor transistor, the semiconductor diode, and the semiconductor driver chip are arranged laterally side by side on the carrier.
US10964641B2
A semiconductor device and method for forming the semiconductor device is provided. The semiconductor device includes an integrated circuit having through vias adjacent to the integrated circuit die, wherein a molding compound is interposed between the integrated circuit die and the through vias. The through vias have a projection extending through a patterned layer, and the through vias may be offset from a surface of the patterned layer. The recess may be formed by selectively removing a seed layer used to form the through vias.
US10964630B2
A semiconductor device may include a first conductor plate on which a first semiconductor element, a second semiconductor element and a first circuit board are disposed, and a plurality of first signal terminals. A size of the second semiconductor is smaller than a size of the first semiconductor element. In a plan view along a direction perpendicular to the first conductor plate, the plurality of first signal terminals is located in a first direction with respect to the first semiconductor element. The second semiconductor element and the first circuit board are located between the plurality of first signal terminals and the first semiconductor element and are arranged along a second direction that is perpendicular to the first direction. A signal pad of the first semiconductor element is connected to a corresponding one of the plurality of first signal terminals via a signal transmission path of the first circuit board.
US10964624B2
A method is provided for removing heat from an integrated circuit package. Fluid coolant is provided from a fluid inlet of a fluid routing device through channels in the fluid routing device to absorb heat generated by first and second integrated circuit dies in the integrated circuit package. The fluid routing device is mounted on a surface of each of the first and second integrated circuit dies. The fluid coolant is provided from the channels to a fluid outlet of the fluid routing device. A flow of the fluid coolant through the fluid routing device is adjusted to reduce a temperature of the first integrated circuit die in response to an increase in a workload of the first integrated circuit die.
US10964623B2
An electronic module of a control device of a vehicle includes at least one interconnect device, with electronic structural elements as the control unit, and at least one electronic component electrically connected to the interconnect device via a connecting region, wherein the structural elements of the interconnect device and each connecting region between the interconnect device and each dedicated electronic component are coated with an encapsulating material. Furthermore, a method for encapsulating an electronic module is disclosed.
US10964618B2
A semiconductor package includes a first semiconductor chip, a second semiconductor chip attached to an upper surface of the first semiconductor chip, a silicon heat-dissipation body thermally connected to at least one of the first semiconductor chip and the second semiconductor chip, and a molding member configured to surround the first semiconductor chip and the second semiconductor chip and exposing an upper surface of the silicon heat-dissipation body.
US10964614B2
A semiconductor device includes a dielectric layer, a conductive layer formed over the dielectric layer, and a reduction sacrificial layer formed between the dielectric layer and the conductive layer, wherein the reduction sacrificial layer includes a first reduction sacrificial material having higher electronegativity than the dielectric layer, and a second reduction sacrificial material having higher electronegativity than the first reduction sacrificial material.
US10964604B2
To provide a magnetic storage element, a magnetic storage device, and an electronic device which store multi-value information with a simpler structure. A magnetic storage element provided with a plurality of tunnel junction elements each of which includes a reference layer having a fixed magnetization direction, a storage layer capable of reversing a magnetization direction, and an insulator layer interposed between the reference layer and the storage layer, the plurality of tunnel junction elements electrically connected to each other in parallel, in which the plurality of tunnel junction elements has film configurations identical to each other, respective layers of the film configurations formed by using a same material to have a same thickness, and each of cross-sectional shapes obtained by cutting the plurality of tunnel junction elements in a laminating direction is a polygonal shape including upper and lower sides parallel to each other with a ratio of the lower side to the upper side different for each of the plurality of tunnel junction elements.
US10964592B2
A method of forming conductive vias of integrated circuitry comprises forming first openings in a first masking material, with the first openings being spaced along a line passing across the first openings. Sidewalls of the first openings are lined with a second masking material to form a ring within individual of the first openings and a second opening within the individual first openings radially inside of the ring. The first masking material is removed along the line to form a void space between immediately-adjacent of the rings. A mask is formed that comprises the rings and a third opening in third masking material, with the third opening extending along the line above and across multiple of the rings and multiple of the second openings. The mask is used as an etch mask while etching into substrate material that is exposed through the third opening to form contact openings in the substrate material that are spaced along the line. Conductive material is formed in the contact openings to form conductive vias.
US10964590B2
The present disclosure describes a method to a metallization process with improved gap fill properties. The method includes forming a contact opening in an oxide, forming a barrier layer in the contact opening, forming a liner layer on the barrier layer, and forming a first metal layer on the liner layer to partially fill the contact opening. The method further includes forming a second metal layer on the first metal layer to fill the contact opening, where forming the second metal layer includes sputter depositing the second metal layer with a first radio frequency (RF) power and a direct current power, as well as reflowing the second metal layer with a second RF power.
US10964577B2
According to one embodiment, an electrostatic chuck includes a ceramic dielectric substrate having a first major surface placing an object to be processed and a second major surface on an opposite side of the first major surface, and a base plate provided on a side of the second major surface and supporting the ceramic dielectric substrate. The base plate includes a first communicating passage passing a medium which adjusts a temperature of the object to be processed. The first communicating passage has an upper surface, a side surface, and a lower surface. A ratio of variation of a maximum height Sz in the upper surface to a height of the first communicating passage is not more than 1%.
US10964575B2
A transfer robot system includes a transfer robot configured to transfer a wafer under an operational instruction; a controller configured to output the operational instruction to the transfer robot; a wafer receptacle; and an interferometer. The wafer receptacle comprises a receptacle body having an open front through which an end effector and the wafer pass; a first reflector disposed under a support space; and a first optical element disposed above the support space to face the first reflector, configured to output the light toward the first reflector and receive received light therefrom. The interferometer calculates an optical interference peak, which is generated between the wafer and the first reflector, based on the received light. The controller determines a taught position of the transfer robot based on a variation of the optical interference peak during an operation of the transfer robot.
US10964574B2
A system for sending a cassette pod is provided. The system includes a processing machine having a load port for receiving the cassette pod. The system further includes a manipulating apparatus positioned above the processing machine. The manipulating apparatus includes an intermediate module having a stage and a driving mechanism connected to the stage to change the position of the stage. The manipulating apparatus further includes a conveyor module having a gripper assembly for grasping the cassette pod.
US10964573B2
An overhead transport vehicle includes a traveler to travel along a traveling rail, an elevator provided to the traveler, a holder to be raised and lowered by the elevator and to hold a flange included in a container, a positioner to ascend and descend with respect to the holder and to engage with a recess in the flange, a detector to detect a relative ascending operation of the positioner with respect to the holder, and a controller to recognize that the container is disposed on a mounting surface of a transfer destination when the detector detects the ascending operation in a case where the holder is lowered by the elevator.
US10964569B2
An apparatus having a first portion including a first front wall, a first rear wall, and a bottom wall integrally coupled to the first front wall and the first rear wall, and pivotal pin structures integrally coupled to and extending from the first rear wall. The apparatus includes a second portion having a second front wall, a second rear wall, and a top wall integrally coupled to the second front wall and the second rear wall, and pin holders integrally coupled to and extending from the second rear wall and at an offset angle with reference to the top wall. The pivotal pin structure includes a base support connected to the first rear wall and a shaft connected to the base support, and the pin holder defines an opening sized and shaped to accept the shaft. The first and second portions are sized and shaped to be pivotally movable between open and closed configurations.
US10964565B2
Disclosed is a substrate processing apparatus that includes an interference member for minimizing a collision between a descending flow of gas supplied by a fan unit and a gas flow directed toward a transfer space from the inside of a container.
US10964547B2
A method of fabricating a semiconductor structure including the following steps is provided. A mask layer is formed on a semiconductor substrate. The semiconductor substrate revealed by the mask layer is anisotropically etched until a cavity is formed in the semiconductor substrate, wherein anisotropically etching the semiconductor substrate revealed by the mask layer comprises performing a plurality of first cycles and performing a plurality of second cycles after performing the first cycles, each cycle among the first and second cycles respectively includes performing a passivating step and performing an etching step after performing the passivating step. During the first cycles, a first duration ratio of the etching step to the passivating step is variable and ramps up step by step. During the second cycles, a second duration ratio of the etching step to the passivating step is constant, and the first duration ratio is less than the second duration ratio.
US10964542B2
A method includes removing a dummy gate stack to form an opening between gate spacers, selectively forming an inhibitor film on sidewalls of the gate spacers, with the sidewalls of the gate spacers facing the opening, and selectively forming a dielectric layer over a surface of a semiconductor region. The inhibitor film inhibits growth of the dielectric layer on the inhibitor film. The method further includes removing the inhibitor film, and forming a replacement gate electrode in a remaining portion of the opening.
US10964540B2
The present disclosure provides a semiconductor structure forming method, including: providing a base, a first mask layer and a second mask layer located at the top of the first mask layer being formed on the base, and the second mask layer internally having a first opening, a second opening and a third opening; forming first side wall layers on a side wall of the first opening, a side wall of the second opening and a side wall of the third opening; forming a first pattern layer filling the first opening, the second opening and the third opening, the first pattern layer internally having a first groove; etching to remove the second mask layer located between the second opening and the third opening along the bottom of the first groove, so as to form fourth openings located between adjacent first side wall layers; and by using the second mask layer and the first side wall layers as masks, etching the first mask layer below the first opening, the second opening, the third opening and the fourth openings, so as to form a patterned first mask layer. The present disclosure can enlarge a process window and improve the position accuracy of the formed patterned first mask layer.
US10964537B1
Systems and methods for forming semiconductor layers, including oxide-based layers, are disclosed in which a material deposition system has a rotation mechanism that rotates a substrate around a center axis of a substrate deposition plane of the substrate. A material source that supplies a material to the substrate has i) an exit aperture with an exit aperture plane and ii) a predetermined material ejection spatial distribution from the exit aperture plane. The exit aperture is positioned at an orthogonal distance, a lateral distance, and a tilt angle relative to the center axis of the substrate. The system can be configured for either i) minimum values for the orthogonal distance and the lateral distance to achieve a desired layer deposition uniformity using a set tilt angle, or ii) the tilt angle to achieve the desired layer deposition uniformity using a set orthogonal distance and a set lateral distance.
US10964529B2
The present disclosure provides a method for cleaning a lanthanum gallium silicate wafer which comprises the following steps: at a step of 1, a cleaning solution constituted of phosphorous acid, hydrogen peroxide and deionized water is utilized to clean the lanthanum gallium silicate wafer with a megahertz sound wave; at a step of 2, the cleaned lanthanum gallium silicate wafer is rinsed and dried by spinning; at a step of 3, a cleaning solution constituted of ammonia, hydrogen peroxide and deionized water is utilized to clean the lanthanum gallium silicate wafer with the megahertz sound wave; at a step of 4, the cleaned lanthanum gallium silicate wafer is rinsed and dried by spinning; and at a step of 5, the rinsed and dried wafer is placed in an oven to be baked. The present invention shortens a period of acidic cleaning process and prolongs a period of alkaline cleaning and utilizes a more effective cleaning with megahertz sound wave to replace the conventional ultrasonic cleaning to solve the issue of cleaning the lanthanum gallium silicate wafer after a cutting process and to improve surface cleanliness of the lanthanum gallium silicate wafer to get a better cleaning effect.
US10964528B2
Processes for surface treatment of a workpiece are provided. In one example implementation, organic radicals (e.g., methyl CH3 radicals) can be generated by exciting and/or dissociating hydrogen and/or inert gas (e.g., Ar, He, etc) molecules in a remote plasma source and a subsequent reaction with organic molecule (alkanes and alkenes). The organic radicals (e.g., methyl CH3 radicals) can be exposed to the silicon and/or silicon germanium surfaces. After exposure to the organic radicals, the silicon and/or silicon germanium surfaces can be stable in air for a time period (e.g., days) with reduced surface oxidation such that the silicon and/or silicon germanium surfaces can be effectively protected from oxidation. As such, native surface oxide removal process before subsequent process steps can be eliminated.
US10964525B2
The present disclosure includes apparatuses and methods related to sublimation in forming a semiconductor. In an example, a method may include forming a sacrificial material in an opening of a structure, wherein the sacrificial material displaces a solvent used in a wet clean operation and removing the sacrificial material via sublimation by exposing the sacrificial material to sub-atmospheric pressure.
US10964520B2
A multi-reflection mass spectrometer comprising two ion mirrors spaced apart and opposing each other in a direction X, each mirror elongated generally along a drift direction Y, the drift direction Y being orthogonal to the direction X, a pulsed ion injector for injecting pulses of ions into the space between the ion mirrors, the ions entering the space at a non-zero inclination angle to the X direction, the ions thereby forming an ion beam that follows a zigzag ion path having N reflections between the ion mirrors in the direction X whilst drifting along the drift direction Y, a detector for detecting ions after completing the same number N of reflections between the ion mirrors, and an ion focusing arrangement at least partly located between the opposing ion mirrors and configured to provide focusing of the ion beam in the drift direction Y, such that a spatial spread of the ion beam in the drift direction Y passes through a single minimum at or immediately after a reflection having a number between 0.25N and 0.75N, wherein all detected ions are detected after completing the same number N of reflections between the ion mirrors.
US10964518B2
An apparatus for transporting charged particles. The apparatus includes a control unit and a transport device having a plurality of electrodes arranged around a transport channel, wherein the transport channel includes a bunch forming region configured to receive charged particles received by the transport device. The control unit is configured to control voltages applied to the electrodes to generate a transport potential in the transport channel, the transport potential having a plurality of potential wells which are configured to move so as to transport charged particles along the transport channel in one or more bunches. The control unit is further configured to control voltages applied to the electrodes: temporarily generate a gathering potential in the bunch forming region so that charged particles received by the transport device are gathered in the bunch forming region; and then generate the transport potential in the bunch forming region so that a selected potential well is formed in the bunch forming region with the selected potential well receiving a bunch of charged particles formed from the charged particles gathered in the bunch forming region by the gathering potential.
US10964513B2
Provided is a plasma processing apparatus including a processing chamber which is disposed in a vacuum vessel and able to be decompressed, a sample stage on a top surface of which a wafer to be processed is mounted, an opening which is configured to supply a heat-transfer gas to a gap between the wafer and the top surface of the sample stage, a regulator which regulates a flow rate of the heat-transfer gas, and a controller which regulates an operation of the regulator based on a pressure of the gap detected using an amount of the heat-transfer gas leaking from the regulator to the processing chamber through the gap while the wafer is mounted on the sample stage and an amount of the heat-transfer gas supplied from the opening to the processing chamber while the wafer is not mounted on the sample stage.
US10964512B2
Exemplary semiconductor processing systems may include a processing chamber, and may include a remote plasma unit coupled with the processing chamber. Exemplary systems may also include a mixing manifold coupled between the remote plasma unit and the processing chamber. The mixing manifold may be characterized by a first end and a second end opposite the first end, and may be coupled with the processing chamber at the second end. The mixing manifold may define a central channel through the mixing manifold, and may define a port along an exterior of the mixing manifold. The port may be fluidly coupled with a first trench defined within the first end of the mixing manifold. The first trench may be characterized by an inner radius at a first inner sidewall and an outer radius, and the first trench may provide fluid access to the central channel through the first inner sidewall.
US10964496B2
A method for closing an actuator in a magnetically actuated switch assembly, where the actuator includes an armature and a winding, and the switch assembly includes a manual actuation device coupled to one end of the armature and a movable terminal in a vacuum interrupter coupled to an opposite end of the armature. The method includes commencing a closing operation of the actuator using the manual actuation device to move the armature towards a closed latch position, detecting that the actuator is being manually closed, and energizing the winding to assist moving the armature to the closed latch position when the armature gets to a predetermined distance from the closed latch position.
US10964493B2
An arc quenching device, which prevents a load device from displaying an unnecessary behavior during starting of a power supply, includes: a semiconductor switch connected in parallel to a first switch which is mechanical; a power supply circuit configured to use a voltage which is generated between both contact points of the first switch to output a voltage which causes the semiconductor switch to turn on; and a second switch configured to cause its open state to prevent the semiconductor switch from turning on.
US10964480B2
A capacitor module is provided which includes a plurality of capacitors, a capacitor case, and a sealing resin with which the capacitor case is filled to seal the capacitors in the capacitor case. The capacitor case includes inward-facing portions of an outer wall thereof each of which bulges or protrudes between every adjacent two of the capacitors. As viewed in a height-wise direction perpendicular both to a direction in which the inward-facing portions protrude and to a direction in which two of the capacitors adjacent each other across one of the inward-facing portions are aligned, the intervening inward-facing portion traverses a line segment passing through centers of the two adjacent capacitors. This structure minimizes thermal interference between the capacitors.
US10964479B2
An electronic component includes an element body and an external electrode disposed on the element body. The external electrode includes a sintered metal layer, a conductive resin layer disposed on the sintered metal layer, and a solder plating layer arranged to constitute an outermost layer of the external electrode. A space exists in the conductive resin layer or between the conductive resin layer and the sintered metal layer. A first maximum length of the space in a thickness direction of the conductive resin layer is shorter than a second maximum length of the space in a direction orthogonal to the thickness direction of the conductive resin layer.
US10964478B2
A multilayer ceramic capacitor satisfies a relationship A>B, where B represents a coverage rate of a first organic layer disposed on a first base electrode layer located on a first end surface, A represents a coverage rate of the first organic layer disposed on the first base electrode layer located on a first main surface or a second main surface, and A represents a coverage rate of the first organic layer located on the first main surface or the second main surface. A second end surface also has a similar configuration.
US10964474B2
According to one embodiment, a capacitor includes a conductive substrate, a conductive layer, a dielectric layer, and first and second external electrodes. The conductive substrate has a first main surface provided with recess(s), a second main surface, and an end face extending between edges of the first and second main surfaces. The conductive layer covers the first main surface and side walls and bottom surfaces of the recess(s). The dielectric layer is interposed between the conductive substrate and the conductive layer. The first external electrode includes a first electrode portion facing the end face and is electrically connected to the conductive layer. The second external electrode includes a second electrode portion facing the end face and is electrically connected to the conductive substrate.
US10964473B2
The coil unit includes a planar coil, a magnetic body and a capacitor module, the capacitor module has a substrate, capacitor elements mounted on the substrate, and a first connecting terminal and a second connecting terminal provided outside an element region on which capacitor elements are mounted, the first connecting terminal is provided inside a winding section as viewed in a plan view, the second connecting terminal is provided outside the winding section as viewed in a plan view, a direction in which the first connecting terminal and the second connecting terminal are connected is perpendicular to a direction in which the conductor extends in the winding section of the planar coil, the coil unit in which the element region is provided in a range overlapping the winding section of the coil as viewed in a plan view is selected.
US10964467B2
A constant-current controller that supplies a constant-current to a solenoid driver for use with an electromechanical device. The controller comprises a PCB containing a constant-current control circuit. The circuit comprises a GaNFET primary switch and a secondary switch. The PCB is integrated with and made a part of the solenoid driver. A standard electromechanical device may be converted to a constant-current controlled electromechanical device by exchanging the solenoid driver.
US10964466B2
Disclosed is an insulation treatment method for a helium inlet pipe of a superconducting magnet. The superconducting magnet has a structure with varying T-shaped cross section. The irregular parts of the magnet are filled with G10 to reduce the difficulty in the insulation treatment caused by the irregular shape. Moreover, a skirt-shaped insulating material is provided around the metal conduit to overcome the reduction in the insulation electrical performance caused by the defects in the insulation treatment for such irregular parts. The application designs a sample structure for insulation treatment, and can wrap the superconducting magnet having the T-shaped varying cross-section with insulating materials before vacuum pressure impregnation, meeting special requirements of high-voltage insulation treatment for the superconducting magnet with a complex structure under low temperature and vacuum environment.
US10964453B2
The present invention is a superconducting stabilization material used for a superconducting wire, which is formed of a copper material which contains: one or more types of additive elements selected from Ca, La, and Ce in a total of 3 ppm by mass to 400 ppm by mass; and a balance being Cu and inevitable impurities and in which a total concentration of the inevitable impurities excluding O, H, C, N, and S which are gas components is 5 ppm by mass to 100 ppm by mass.
US10964443B2
An electrically conductive yarn or film and method of manufacturing thereof in which a SP1/nanoparticle complex bound to the yarn or film serves as a platform for adhesion of a metallic coating.
US10964438B2
A system for monitoring fissile material contents inside of a nuclear reactor can include at least a first neutron detector positioned outside a radiation shield and configured to detect a plurality of neutrons originating from the reactor core and having passed through the radiation shield, and configured to generate a first output signal, and a controller communicably linked to the first neutron detector to receive the first output signal and a power output of the nuclear reactor.
US10964437B2
A nuclear reactor seismic isolation assembly includes an enclosure that defines a volume; a plastically-deformable member mounted, at least in part, within the volume; and a stretching member moveable within the enclosure to plastically-deform the plastically-deformable member in response to a dynamic force exerted on the enclosure.
US10964433B2
Techniques regarding autonomously updating the status of a medical procedure are provided. For example, one or more embodiments described herein can comprise a system, which can comprise a memory that can store computer executable components. The system can also comprise a processor, operably coupled to the memory, and that can execute the computer executable components stored in the memory. The computer executable components can comprise a procedure component that can update a status of a medical procedure regarding an entity based on a trust disposition value derived using machine learning technology. The trust disposition value can be indicative of an expected efficacy associated with the medical procedure.
US10964426B2
Certain examples provide systems and methods to monitor and control hospital operational systems based on occupancy data and medical orders. An example healthcare workflow management and reasoning system includes a workflow engine including a first particularly programmed processor to monitor one or more medical orders from one or more hospital information systems to identify a condition indicating that a first patient in a first room is ready for a clinical activity such as discharge. The example healthcare workflow management and reasoning system includes a sensing component including a second processor to gather occupancy data regarding the first patient in the first room and transmit the occupancy data to the workflow engine. The example workflow engine controls one or more hospital operational systems to trigger cleaning of the first room, lighting settings for the first room, and transportation of a second patient to the first room based on occupancy data from the sensing component.
US10964421B2
Aspects of the subject disclosure may include, for example, detecting, by a substance delivery system coupled to a body part of an individual, an input signal not associated with a biological measurement of the individual, determining from the input signal, by the substance delivery system, whether delivering a dosage of a substance stored in the substance delivery system is needed and conforms to a dosage policy, and responsive to determining from the input signal that delivery of the dosage of the substance is needed and conforms to the dosage policy, initiating, by the substance delivery system, delivery of the dosage of the substance to the body part of the individual. Other embodiments are disclosed.
US10964415B2
A system and method for assessing the immunological status of one or more individuals in a patient population is presented. The method includes establishing a database comprising a plurality of records of information each representative of the immune status of an individual in the population, each of said records including (1) current information from one or more assays for the presence of a biochemical, and (2) individual specific information comprising one or more of said individual's medical history, said individual's doctors' observations and historical, demographic, lifestyle, and familial information relating to said individual. The method further includes processing the information in said database to find trends or patterns relating to the immune status of individuals in said patient population; and using the said trends or patterns as part of a health care related decision making process.
US10964409B2
Provided herein are methods, processes, systems and machines for non-invasive assessment of genetic variations.
US10964408B2
Exemplary methods, procedures, computer-accessible medium, and systems for base-calling, aligning and polymorphism detection and analysis using raw output from a sequencing platform can be provided. A set of raw outputs can be used to detect polymorphisms in an individual by obtaining a plurality of sequence read data from one or more technologies (e.g., using sequencing-by-synthesis, sequencing-by-ligation, sequencing-by-hybridization, Sanger sequencing, etc.). For example, provided herein are exemplary methods, procedures, computer-accessible medium and systems, which can include and/or be configured for obtaining raw output from a sequencing platform configured to be used for reading fragment(s) of genomes, obtaining reference sequences for the genomes obtained independently from the raw output, and generating a base-call interpretation and/or alignment using the raw output and the reference sequences. For example, a score function can be determined based on information associated with the sequencing platform that can be used to analyze polymorphisms based on the base-call interpretation and/or alignment.
US10964400B2
Apparatus and methods are disclosed, including a method that raises an electrical potential of a plurality of access lines to a raised electrical potential, where each access line is associated with a respective charge storage device of a string of charge storage devices. The electrical potential of a selected one of the access lines is lowered, and a data state of the charge storage device associated with the selected access line is sensed while the electrical potential of the selected access line is being lowered. Additional apparatus and methods are described.
US10964398B2
A memory device includes a memory cell region including a metal pad and first and second memory cells in a memory block, a peripheral circuit region including another metal pad and vertically connected to the memory cell region by the metal pads, a first word line in the memory cell region connected to the first memory cell, a second word line in the memory cell region connected to the second memory cell, an address decoder in the peripheral circuit region applying one of an erase voltage and an inhibit voltage to the first and second word lines, and control logic in the peripheral circuit region controlling an erasing operation on the memory block. During the erasing operation the inhibit voltage is applied to the first word line after the erase voltage, and the erase voltage is applied to the second word line after the inhibit voltage.
US10964397B2
A memory device including at least one dummy word line over a substrate; a plurality of word lines over the dummy word line; and a plurality of vertical holes extending through the at least one dummy word line and the plurality of word lines in a direction perpendicular to the substrate and classified into channel holes and dummy holes, each of the channel holes being connected to a bit line. The method including performing an erase operation on dummy cells formed as the dummy word line and the dummy holes; verifying the erase operation; and performing a program operation on at least one of the dummy cells such that the at least one dummy cell has a higher threshold voltage than main cells formed as the dummy word line and the channel holes.
US10964393B2
Provided is a semiconductor device capable of reducing its area, operating at a high speed, or reducing its power consumption. A circuit 50 is used as a memory circuit with a function of performing an arithmetic operation. One of a circuit 80 and a circuit 90 has a region overlapping with at least part of the other of the circuit 80 and the circuit 90. Accordingly, the circuit 50 can perform the arithmetic operation that is essentially performed in the circuit 60; thus, a burden of the arithmetic operation on the circuit 60 can be reduced. Moreover, the number of times of data transmission and reception between the circuits 50 and 60 can be reduced. Furthermore, the circuit 50 functioning as a memory circuit can have a function of performing an arithmetic operation while the increase in the area of the circuit 50 is suppressed.
US10964390B1
An apparatus and method of skip coding user data is provided. According to skip coding, for each cell in which an upper page is 0, data is stored in a half page. For each portion of data in which the upper page is 1, data is not stored in the half page. Thus, cells of a NAND memory may each store 3.5 bits, in one of twelve available states.
US10964382B2
A variable resistive memory device includes a memory cell, a first circuit, and a second circuit. The memory cell is connected between a word line and a bit line. The first circuit provides the bit line with a first pulse voltage based on at least one enable signal. The second circuit provides the word line with a second pulse voltage based on the enable signal. The first circuit generates the first pulse voltage increased in steps from an initial voltage level to a target voltage level.
US10964374B2
Embodiments of the disclosure are drawn to apparatuses, systems, and methods for dynamic refresh allocation. Memories may be subject to row hammer attacks, where one or more wordlines are repeatedly accessed to cause data degradation in victim rows nearby to the hammered wordlines. A memory may perform background auto-refresh operations, and targeted refresh operations where victim wordlines are refreshed. The memory may monitor access patterns to the memory in order to dynamically allocate the number of targeted refresh operations and auto-refresh operations in a set of refresh operations based on if a hammer attack is occurring and the type of hammer attack which is occurring.
US10964372B2
Methods, systems, and devices for memory cell biasing techniques are described. A memory cell may be accessed during an access phase of an access operation. A pre-charge phase of the access phase may be initiated. The memory cell may be biased to a voltage (e.g., a non-zero voltage) after the pre-charge phase. In some examples, the memory cell may be biased to the voltage when a word line is unbiased and the memory cell is isolated from the digit line.
US10964364B2
A semiconductor device includes a plurality of stacked dies electrically connected with each other. Each of the stacked dies includes a data path, a strobe path, a stack information generation circuit, and a delay control circuit. The data path transmits a data signal. The strobe path transmits a data strobe signal. The stack information generation circuit generates stack information representing a number of the dies. The delay control circuit controls a delay time of at least one of the data path and the strobe path based on the stack information.
US10964363B2
A delay tracking method and a memory system are provided. The delay tracking method is applied to a memory system supporting a low-frequency-mode (LFM) and a high-frequency-mode (HFM) of an operating clock. The delay tracking method includes the steps of selecting a LFM oscillator for obtaining a LFM delay value when the operating clock is in the HFM; and selecting a HFM oscillator for obtaining a HFM delay value when the operating clock is in the LFM.
US10964356B2
A charge sharing Compute In Memory (CIM) may comprise an XNOR bit cell with an internal capacitor between the XNOR output node and a system voltage. Alternatively, a charge sharing CIM may comprise an XNOR bit cell with an internal capacitor between the XNOR output node and a read bit line. Alternatively, a charge sharing CIM may comprise an XNOR bit cell with an internal cap between XNOR and read bit line with a separate write bit line and write bit line bar.
US10964346B2
A magnetic recording medium, includes a substrate; a magnetic layer; an underlayer between the substrate and the magnetic layer, the underlayer including a non-magnetic powder and a binding agent; and a back layer. In a case where wmax and wmin are respectively maximum and minimum of average values of width of the magnetic recording medium measured under four environments whose temperature and relative humidity are (10° C., 10%), (10° C., 80%), (29° C., 80%), and (45° C., 10%), respectively, wmax and wmin satisfy a relation of (wmax−wmin)/wmin≤400 [ppm]. The substrate includes polyester. A squareness ratio in a vertical direction of the magnetic medium is 65% or more, and an average thickness of the magnetic recording medium is 5.6 μm or less.
US10964337B2
A method, a device and a storage medium for evaluating speech quality include: receiving speech data to be evaluated; extracting evaluation features of the speech data to be evaluated; performing quality evaluation to the speech data to be evaluated according to the evaluation features of the speech data to be evaluated and a predetermined speech quality evaluation model, in which the speech quality evaluation model is an indication of a relationship between evaluation features of single-ended speech data and quality information of the single-ended speech data.
US10964335B2
Methods, systems, and devices for auditory enhancement are described. A device may receive a respective auditory signal at each of a set of microphones, where each auditory signal includes a respective representation of a target auditory component and one or more noise artifacts. The device may identify a directionality associated with a source of the target auditory component (e.g., based on an arrangement of the multiple microphones). The device may determine a distribution function for the target auditory component based at least in part on the directionality associated with the source and on the received plurality of auditory signals. The device may generate an estimate of the target auditory component based at least in part on the distribution function and output the estimate of the target auditory component.
US10964332B2
An apparatus and method for speech communication is described. An audio transmit processor captures at least two audio signals from an audio source, and processes the at least two audio signals to provide a mono audio signal and a non-audio signal comprising spatial information representative of the direction of the audio source. The audio transmit processor combines the non-audio signal with the mono audio signal by watermarking; and transmits the watermarked audio signal. An audio receive processor receives a watermarked audio signal and extracts a mono audio signal and a non-audio signal comprising spatial information from the watermarked audio signal. The audio receive processor processes the mono audio signal and spatial information to generate at least two output audio signals.
US10964327B2
A hub device, a multi-device system including the hub device, and a method of operating the same may include: converting, by the hub device, received voice input into text; identifying, by the hub device, a device capable of performing an operation corresponding to the text; identifying which device stores a function determination model corresponding to the device capable of performing the operation corresponding to the text, from among the hub device, and a plurality of other devices connected to the hub device; and based on the identified device that stores the function determination model being a device that is different from the hub device, transmitting at least part of the text to the identified device.
US10964326B2
Disclosed herein is method of performing speech recognition using audio and visual information, where the visual information provides data related to a person's face. Image preprocessing identifies regions of interest, which is then combined with the audio data before being processed by a speech recognition engine.
US10964313B2
A word score calculation device according to an embodiment includes an input unit and a calculating unit. The input unit receives input of a string of words including known words, which are known already, and new words, which are not yet known. The calculating unit inputs the lexicon feature of a word, which is included in the string of words, in a neural network in which one or more unit groups for inputting the lexicon features of words are included in an input layer, and calculates a word score of the target word included in the string of words.
US10964309B2
A CS CTC model may be initialed from a major language CTC model by keeping network hidden weights and replacing output tokens with a union of major and secondary language output tokens. The initialized model may be trained by updating parameters with training data from both languages, and a LID model may also be trained with the data. During a decoding process for each of a series of audio frames, if silence dominates a current frame then a silence output token may be emitted. If silence does not dominate the frame, then a major language output token posterior vector from the CS CTC model may be multiplied with the LID major language probability to create a probability vector from the major language. A similar step is performed for the secondary language, and the system may emit an output token associated with the highest probability across all tokens from both languages.
US10964308B2
A speech processing apparatus is provided in which, while face feature points are extracted from moving image data obtained by imaging a speaker's face, for each frame, a first generation network for generating face feature points of the corresponding frame based on speech feature data extracted from uttered speech of the speaker for each frame is generated, and whether the first generation network is appropriate is evaluated using an identification network, then, a second generation network for generating the uttered speech from a plurality of uncertain settings including at least text representing utterance content of the uttered speech and information indicating emotions included in the uttered speech, a plurality of types of fixed settings which define speech quality, and the face feature points generated by the first generation network evaluated as appropriate, is generated, and whether the second generation network is appropriate is evaluated using the identification network.
US10964299B1
An automated music performance system that is driven by the music-theoretic state descriptors of any musical structure (e.g. a music composition or sound recording). The system can be used with next generation digital audio workstations (DAWs), virtual studio technology (VST) plugins, virtual music instrument libraries, and automated music composition and generation engines, systems and platforms. The automated music performance system generates unique digital performances of pieces of music, using virtual musical instruments created from sampled notes or sounds and/or synthesized notes or sounds. Each virtual music instrument has its own set of music-theoretic state responsive performance rules that are automatically triggered by the music theoretic state descriptors of the music composition or performance to be digitally performed. An automated virtual music instrument (VMI) library selection and performance subsystem is provided for managing the virtual musical instruments during the automated digital music performance process.
US10964294B2
Disclosed herein is an apparatus for aiding in mounting strings to an instrument, which includes a frame having: a pair of opposing extension members, a cross-member connecting the opposing extension members at a distal end; and a support member extending laterally from each of the opposing extension members. The apparatus also includes a retention assembly and a tensile retaining mechanism supported about the cross-member and extending toward the neck portion of the musical instrument. The tensile retaining mechanism including clip member wherein the clip member of the tensile retaining mechanism is configured to receive a string for mounting to the instrument, the tensile retaining mechanism configured to maintain a desired lateral position along the neck portion and maintain a tensile force to the string during a tightening process.
US10964285B2
The present invention provides a driver chip comprising a gate driving module and a source driving module both coupled to a display panel. A plurality of scan lines and a plurality of data line of the display panel scan and drive the display panel for displaying a frame. The source driving module is coupled to the mainboard and receives the positive and negative voltage of the mainboard for generating a source signal to the display panel.
US10964283B2
A display device includes a plurality of pixels arranged in a column direction and a row direction, a plurality of data lines and a data driving part configured to apply data signals to the data lines. The data lines are connected with one of the pixels of a k-th column (‘k’ is a natural number) and one of the pixels of a (k+1)-th column in an odd-numbered row. The data lines are connected with one of the pixels of a (k+1)-th column and one of the pixels of a (k+2)-th column in an even-numbered row. As a result, a pseudo dot inversion drive pattern may be implemented while driving the data lines in accordance with a columnar polarity inversion scheme.
US10964275B2
A display may have a pixel array such as a liquid crystal pixel array. The pixel array may be illuminated by a backlight unit that includes an array of light-emitting diodes. A backlight brightness selection circuit may select brightness values for the light-emitting diodes. The backlight brightness selection circuit may select the brightness values based on image data, based on brightness values used in previous image frames, based on device information, and/or based on sensor information. The backlight brightness selection circuit may select the backlight brightness levels to mitigate visible artifacts such as flickering and halo. The backlight levels selected by the backlight brightness selection may be modified by a power consumption compensation circuit. The power consumption compensation circuit may estimate the amount of power consumption required to operate the backlight using the target brightness levels and may modify the target brightness levels to meet maximum power consumption requirements.
US10964274B2
A display device and a method of driving the same. Characteristics of driving transistors disposed in subpixels of a display panel are sensed and compensated for, thereby improving the image quality of the organic light-emitting display device. Changes in a data voltage between a point in time at which a blank period starts and a period in which the sensing of the driving transistors starts are reduced or minimized, thereby reducing deviations in the sensing of the characteristics of the driving transistors.
US10964266B2
A drive voltage supply circuit, a display panel, and a display device are provided. By supplying a drive voltage lower than a drive voltage for display driving in a period in which sensing deterioration of an organic light emitting diode disposed in each sub pixel, an operating voltage of the organic light emitting diode is kept constant and a degree of deterioration of the organic light emitting diode can be accurately sensed. By discharging the drive voltage supplied to the display panel and controlling a current flowing in the process of discharge before supplying the drive voltage for deterioration sensing, drive voltages of different levels can be stably supplied in a display driving period and a deterioration sensing period.
US10964259B1
An AMOLED display driving device is switchable among plural frame rates, and includes a timing control unit, a panel driving unit, and an emission duty ratio control unit. Based on an input frame rate, the timing control unit changes the display time and V-blanking time in the frame period corresponding to the frame rate by extending V-blanking time, so that the display time in the frame period corresponding to the frame rate is equal to a standard display time. Based on the input frame data and frame timing, the panel driving unit drives an AMOLED display panel to display the input frame on the AMOLED display panel according to the changed display time and V-blanking time in the frame period corresponding to the frame rate. During the frame period corresponding to the frame rate, the emission duty ratio control unit applies plural emission pulses to the AMOLED display panel.
US10964251B2
A pixel array substrate includes pixel structures. Each pixel structure includes a first pixel electrode, a second pixel electrode, a first data line, a second data line, and a scan line. The first pixel electrode and the second pixel electrode are sequentially arranged in a first direction and respectively have a first side and a second side opposite to each other. The pixel structures include first and second pixel structures. A first data line of each first pixel structure is located at the first side, and a second data line of each first pixel structure is located at the second side. A first data line of each second pixel structure is located at the second side; a second data line of each second pixel structure is located at the first side. The first and second pixel structures are sequentially arranged in the first direction to form a first pixel series.
US10964248B2
To enable better color and in particular color saturation control for HDR image handling systems which need to do luminance dynamic range conversion, e.g. from a SDR image to an image optimized for rendering on a display of higher display peak brightness and dynamic range, the inventors invented an apparatus (400) for processing a color saturation (C′bL, C′rL) of an input color (Y′L, C′bL, C′rL) of an input image (Im RLDR) to yield an output color (Y′M, Cb′M, Cr′M) of an output image (Im3000nit) corresponding to the input image, which output image is a re-grading of the input image characterized by the fact that its pixel colors have a different normalized luminance position (Y2) compared to the normalized luminance positions of the input colors (Y1), the normalized luminances being defined as the luminance of a pixel divided by the respective maximal codeable luminance of the image's luminance representation, whereby the ratio of the maximum codeable luminance of the input image and the maximum codeable luminance of the output image is at least 4 or larger, or ¼th or smaller, the apparatus comprising a luminance processor (401) arranged to apply a display tuned luminance mapping function (F_L_da) to determine an output luminance (Y′M) from the input luminance (Y′L) of the input color, the apparatus further comprising a saturation factor determination unit (402) arranged to calculate a final saturation processing strategy (b; Bcorr) based on an initial saturation processing strategy (F_sat) and based on a secondary luminance value (Y′_H) which is derivable from the output luminance (Y′M) by applying a luminance mapping function (F M2H) which is based on the luminance mapping function (F_L_s2h).
US10964241B2
A Mura correction system which detects and corrects Mura in a detection image obtained by photographing a display panel. The Mura correction system detects a Mura block by checking, based on a brightness value, detection images obtained by photographing test images displayed on a display panel, generates coefficient values of coefficients of a Mura correction equation, and generates Mura correction data including a position value of the Mura block and the coefficient values of the coefficients of the Mura correction equation.
US10964233B2
Disclosed herein are devices, systems, and methods for selectively arranging a plurality of visual features. The systems and methods include the use of a plurality of display assemblies. Each display assembly can have a frame and at least one magnet operatively associated with the frame. Each display assembly can be configured for selective positioning relative to at least one other display assembly to establish a polar attraction between aligned magnets associated with the frames of adjacent display assemblies.
US10964231B2
Simulator systems for teaching patient care are provided. In some instances, the simulator system includes a maternal simulator sized and shaped to simulate a pregnant woman, the maternal simulator including a torso, arms, legs, and a head, wherein the torso includes a chamber sized and shaped to receive a fetal simulator and wherein a birthing mechanism is disposed within the chamber for providing rotational and translational movement to the fetal simulator in a birthing simulation; and a fetal simulator sized and shaped to simulate a fetus, the fetal simulator configured to be selectively engaged with the birthing mechanism of the maternal simulator.
US10964219B2
A computer system receives a request to locate a vehicle within a facility. The computer system parses the request to identify one or more characteristics of the vehicle. The computer system identifies a sensor corresponding to the vehicle based on the one or more characteristics of the vehicle. The computer system identifies a most recent location of the vehicle based on the last registered position of the vehicle within the facility. The computer system transmits a signal to a parking spot sensor at the most recent location of the vehicle in the facility. The computer system receives the unique identification. The computer system determines that the unique identification of the vehicle sensor co-located with the parking spot sensor matches the sensor of the requested vehicle. The computer system reports to the user a current location of the vehicle within the facility based on a location of the parking spot sensor.
US10964212B2
A computer-implemented system and method for facilitating rental of a private parking space by an urban resident are provided. Motor vehicle parking spaces located in a residential area are managed through a server. Smart parking devices that are each physically proximate to least one of the parking spaces are interfaced to the server. Vehicle occupancy sensors that are also each physically proximate to least one of the parking spaces are interfaced to the server. Parking availability indicators that are each associated with at least one of the parking spaces are interfaced to the server. The parking spaces are supplemented with a private parking space under legitimate control by a resident of the residential area. Use of the private parking space is managed through the server and the smart parking device nearest to the private parking space. Parking availability the parking spaces is indicated through the nearest parking availability indicator.
US10964209B2
A traffic and parking management system is in signal communication with vehicles to direct them to park in specific locations that are under the systems authority. The system tracks and determines the availability of parking spaces via a digital camera network, and then allocates spaces based on need, predicted availability, and predicted arrival time at a preferred destination or vicinity. The vehicles are directed to the space so allocated, and in the case of a pay for parking system, billed by the system. The traffic and parking management system operates in conjunction with a smart traffic control device which transmits information to approaching vehicles regarding its current and future state enabling vehicles to control their speed to avoid arriving at the traffic control device until it permits the passage of traffic, thus avoiding stopping, idling and reaccelerating when reaching the traffic control device.
US10964206B1
A traffic control system comprises a control unit and a plurality of speakers each configured to function as a microphone and having a DC resistance in the range of 20 to 30 ohms. The control unit monitors the DC resistance of each speaker and communicates malfunctions to a 24 hour emergency dispatch center which contacts repair personnel. The control unit also compares the frequency pattern of a siren to ambient noise at an intersection to distinguish siren sound from ambient noise.
US10964204B2
Concepts and technologies are disclosed herein for disrupting bone conduction signals. According to one aspect, a device can receive a signal via a communication path that is external to a body of a user associated with the device. The device can generate a disruption signal to disrupt the signal. The device can send the disruption signal through the body of the user to disrupt the signal.
US10964198B2
Network-connected (i.e., “smart”) containers are described herein that include an electronic display on which personalized information can be presented. For example, the electronic display (and other necessary components, such as memory, processors, and communication modules) can be integrated into the cap or the body of a container, which holds a skin care product (e.g., a medication or a personal care product, such as a cosmetic) that is applied by the user as part of a skin care regimen. More specifically, a smart container can include an electronic display that presents relevant information to a user for review. Such information can include the name of the skin care product, textual instructions for complying with a skin care regimen, animations illustrating how to apply the skin care product, user information, messages (e.g., text messages delivered via a cloud service), notifications, and device information (e.g., battery status and network connectivity status).
US10964192B1
A disaster preparation system may include a system controller. The system controller may include a device processor; and a non-transitory computer readable medium including instructions executable by the device processor to perform the following steps: receiving location data from a personal electronic device of a user; receiving forecast data regarding a predicted disaster; making a determination of a preparatory action to be executed on behalf of the user, based on the location data and the forecast data; and executing the preparatory action at a predetermined time relative to the predicted time of occurrence of the predicted disaster.
US10964191B2
Provided are a personal safety device and an operating method of the same according to embodiments. The personal safety device includes a communication interface; a memory storing at least one instruction; and a processor configured to execute the at least one instruction to obtain at least one of a user's personal environment information or surrounding environment information, identify an action to be performed for the user, based on the obtained at least one of the personal environment information or the surrounding environment information, identify a device to perform the identified action, based on the obtained at least one of personal environment information or surrounding environment information, and perform the determined action by using the identified device.
US10964189B2
A home automation (HA) system may include HA operation devices within a user living area and an HA hub device to provide communications for the HA operation devices. The HA system may also include at least one controller configured to store historical operational data for each of the HA operation devices based upon a user within the user living area, and use machine learning to determine a predicted operational pattern of at least one of the HA operation devices based upon the stored historical operational data. The at least one controller may also be configured to monitor operation of the HA operation devices and determine therefrom an HA operation device deviation from the predicted operational pattern, and generate a notification based upon the determined HA operation device deviation.
US10964182B2
A method encodes a sequence of image frames depicting an object whose privacy is to be protected. A first and a second version of the sequence of image frames is generated. Image frames of the first version, but not the second version, of the sequence are provided with a privacy mask to protect the privacy of the object depicted therein. The first version of the sequence is encoded as a first encoded sequence of intra-coded image frames and inter-coded image frames. A second version of the sequence is encoded as a second encoded sequence of inter-coded image frames. The inter-coded image frames of the second encoded sequence are encoded by using the intra-coded image frames of the first encoded sequence. The inter-coded image frames of the second encoded sequence are encrypted, and thereafter the first and the second encoded sequence are merged into a single output sequence.
US10964164B2
Embodiments of the present concept provide gaming devices and gaming systems that are configured to implement means for enhancing game play. Here, various embodiments of this concept use game insertion techniques to enhance the game play experience for players. These game insertion techniques include placing bonus spins, free games, or other incentives within traditional game play. In one model, a gaming device may use a bonus spin routine to replace a losing game outcome with a winning game outcome. Here, the player may be shown the initial losing game outcome and then be notified that a bonus spin has been awarded, which ultimately results in the winning game outcome.
US10964163B2
Methods and systems for gamifying decentralized distribution of virtual tokens are provided. The method includes receiving virtual tokens at a security and gaming device, the security and gaming device including storage for securely storing the virtual tokens. The method also includes confirming features of the virtual tokens allow for utilization of the virtual tokens as credits in a game, the game including at least one of a videogame or a game of chance or skill having a result. The method also includes executing the game through an application. The method also includes issuing new tokens through the security and gaming device with each winning result based on an amount of virtual tokens paid for each game. The method also includes destroying the amount of virtual tokens paid for each game with each losing result.
US10964156B2
Reel-based wagering games and associated methods and gaming apparatuses are disclosed. Examples of reel-based wagering games comprise a number of reels and multiple paylines or a multi-way payout scheme associated with the number of reels. Evaluation of payouts associated with the multiple paylines or the multi-way payout scheme starts with a first reel to stop and resets at a subsequent reel to stop when the subsequent reel does not result in a payout with previously stopped reels.
US10964154B2
A medication dispensing system, having a medication panel, a plurality of docking ports for accommodating medication containers, a gripper, and a receptacle carrier having a mount for holding the receptacle and movable by one or more actuators. In some embodiments, the system includes control circuitry, outputting positioning signals to move the receptacle carrier, and outputting dosage-manipulation signals to move the gripper to pick and manipulate a medication dosage out of the medication container, and the horizontal distance between the opening of the receptacle and the medication dosage is less than 20 cm at least prior to outputting the dosage-manipulation signals. The method includes extracting a medication out of the medication container, positioning a receptacle by a receptacle carrier in a horizontal distance of less than 20 cm between the medication and the opening of the receptacle, at least prior to the extracting, and dispensing the medication in the receptacle.
US10964153B2
Provided is a sales system, comprising a sales terminal and a user terminal. The user terminal further comprises a user-side storage unit which pre-stores desired merchandise identification information, and a user-side communication unit which, when the user terminal has entered a communication area wherein communication with the sales terminal is possible, transmits via near-field communication to the sales terminal the desired merchandise identification information which has been pre-stored in the user-side storage unit. The sales terminal further comprises a sales-side storage unit which stores merchandise identification information, which identifies each of a plurality of pieces of merchandise, in association with merchandise location information which indicates the location on a display shelf of each of the plurality of pieces of merchandise, and a sales-side control unit which, on the basis of the desired merchandise identification information, extracts from the sales-side storage unit desired merchandise location information which is the merchandise location information which indicates the location on the display shelf of the desired merchandise.
US10964150B2
The invention relates to an apparatus (1) for processing documents of value, in particular bank notes, and a method for operating such an apparatus (1). The apparatus (1) includes several processing zones (2, 3, 4, 5, 11, 12, 13), such as for example an input module (2), an operating module (3) and an output module (4). The apparatus (1) is further set up to detect events in the processing zones (2, 3, 4, 5, 11, 12, 13), which require an intervention of an operator. The processing zones (2, 3, 4, 5, 11, 12, 13) each have at least one cover (6), which, dependent on such a detected event, is automatically opened without intervention of the operator.
US10964149B2
This coin processor includes a sorting portion sorting coins, a coin container containing coins, a first coin outlet employed at least for discharging coins for refund payment, a second coin outlet employed at least for discharging coins for change, and a control portion discharging coins of a prescribed type reaching at least a prescribed number substantially filling up the coin container from the coin container to one of the first coin outlet and the second coin outlet when the number of coins of the prescribed type contained in the coin container reaches at least the prescribed number.
US10964142B2
Secure custody transfers of items among entities including secure lockable compartments are disclosed, wherein users may securely transfer custody of items to and from secure lockable compartments. Records of custody transfers and the custody transfers recorded therein may be associated to a chain of custody. A chain of custody may have an originating entity, one or more intermediary entities, which may include secure lockable compartments, and an end recipient entity. Custody transfers to a secure lockable compartment may include a release authority specifying a subsequent custody transfer, wherein a specified receiving user may access the secure lockable compartment using a portable wireless device and/or using a keypad to enter a provided access token. Custody transfer records may be secured using record certificates useable to authenticate data comprised therein. Record certificates may be written to and retrieved from a ledger, which may be a secure ledger such as a blockchain ledger.
US10964134B2
A vehicle service system for interaction with the on-board electronic systems of a vehicle utilizing a cloud-based vehicle diagnostic system which is configured on-demand for the vehicle undergoing a service procedure. The vehicle service system includes a local processing system in communication with the vehicle and with a cloud-based vehicle diagnostic application service configured to establish an on-demand virtual processing system running a vehicle-specific diagnostic software application. The vehicle-specific diagnostic software application communicates with the vehicle undergoing service to present a service technician with diagnostic results within a graphical user interface of the local processing system. Upon completion of the vehicle service, the remote cloud-based vehicle diagnostic application service terminates the virtual processing system and vehicle-specific diagnostic software application, freeing cloud-based resources for subsequent uses.
US10964133B2
A state detection sensor includes a housing and a position sensing component mounted in the housing. The position sensing component is being configured to provide position data in response to detecting the presence or position of vehicle structure relative to the sensor. The state detection sensor also includes an analog input component mounted in the housing. The analog input component is configured to provide external analog sensor data in response to an analog signal received from an external analog sensor to which the analog input component can be operatively connected. The state detection sensor further includes a component configured to communicate the position data and the external analog sensor data via a serial bus.
US10964128B2
A method and apparatus for reducing an amount of resources required for address validation. An address validation program running on a processor unit configures a tax information table in a payroll database to have an authorization column indicating whether an employee having data in a row of the tax information table has authorized release of data in the row; receives a validation request for at least one validated address entered in one or more request fields in a graphical user interface connected to the processor unit; searches only rows having an indication of authorization in the authorization column of the tax information table; and responsive to finding at least one current address in the tax information table, displays the at least one current address in one or more response fields of the graphical user interface as the at least one validated address.
US10964123B2
An insole design method and an insole design system are provided, and the method includes: capturing an uncompressed free foot model by a depth camera and obtaining a free foot model three-dimensional image; capturing a pressed foot model stepped on a transparent pedal by the depth camera and obtaining a pressed foot model three-dimensional image; aligning the free foot model three-dimensional image with the pressed foot model three-dimensional image; calculating and obtaining a plantar deformation quantity according to the aligned free foot model three-dimensional image and the aligned pressed foot model three-dimensional image; and completing the designed insole according to a sole projection plane or a three-dimensional profile of the specific sole and the plantar deformation quantity.
US10964120B2
An embodiment of the invention is based on the idea of adjusting a physiological model of an anatomical region containing blood vessels on the basis of patient-specific 3D image data of the anatomical region. Since the physiological model includes at least one geometric parameter as well as functional parameters, in particular the at least one geometric parameter and/or the functional parameters can be adjusted. The 3D perfusion of the anatomical region is now simulated on the basis of the adjusted physiological model such that the patient-specific supply areas of the anatomical region are identified on the basis of the simulation.
US10964119B2
A computer implemented method for warping virtual content from two sources includes a first source generating first virtual content based on a first pose. The method also includes a second source generating second virtual content based on a second pose. The method further includes a compositor processing the first and second virtual content in a single pass. Processing the first and second virtual content includes generating warped first virtual content by warping the first virtual content based on a third pose, generating warped second virtual content by warping the second virtual content based on the third pose, and generating output content by compositing the warped first and second virtual content.
US10964112B2
An augmented reality (AR) module receives a location notification including a current location from a client device. The AR module determines a set of geographic vector data within a threshold distance of the current location of the client device. The AR module identifies a set of candidate geometries within the geographic vector data. The AR module identifies a set of content items presentable at candidate geometries. The AR module translates the set of geographic vector data into an AR world view based on the current location of the client device. The AR world view includes a candidate geometry presenting a content item.
US10964111B2
In some instances, undesired content is selectively omitted from a mixed-reality scene via use of tags. An environment's spatial mapping is initially accessed. Based on an analysis of this spatial mapping, any number of segmented objects are identified from within the spatial mapping. These segmented objects correspond to actual physical objects located within the environment and/or to virtual objects that are selected for potential projection into the mixed-reality scene. For at least some of these segmented objects, a corresponding tag is then accessed. A subset of virtual content is then generated based on certain attributes associated with those tags. The content that is included in the subset is specially chosen for actual projection. Thereafter, the selected content is either projected into the mixed-reality scene or scheduled for projection.
US10964108B2
Augmentation of captured 3D scenes with contextual information is disclosed. A 3D capture device is used to capture a plurality of 3D images at a first resolution. A component on a mobile computing device is used to capture at least one piece of contextual information that includes a capture location data and a pose data. The mobile computing device receives, the plurality of 3D images from the 3D capture device, and renders the plurality of 3D images into a 3D model. In addition, the at least one piece of contextual information is embedded into a correct location in the 3D model. A user interactive version of the 3D model including the embedded at least one piece of contextual information is then displayed.
US10964099B2
A method of image processing includes receiving a set of images of an object, the set of images including images corresponding to binary spherical gradient illumination along first, second and third mutually orthogonal axes and images corresponding to complementary binary spherical gradient illumination along the first, second and third axes. The method also includes determining a specular reflectance map of the object and a diffuse reflectance map of the object based on the set of images, and/or determining a diffuse photometric normal map and a specular photometric normal map of the object based on the set of images.
US10964098B1
In one embodiment, a computing system accesses a three-dimensional (3D) model of an environment, the 3D model comprising a virtual representation of an object in the environment. The computing system accesses an image of the object captured by a camera from a camera pose. The computing system accesses material parameters associated with a material property for the virtual representation of the object. The computing system renders, using the 3D model, pixels associated with the virtual representation of the object based on the material parameters associated with the virtual representation of the object, the pixels being rendered from a virtual perspective corresponding to the camera pose. The computing system determines updated material parameters associated with the material property for the virtual representation of the object based on a comparison of the rendered pixels to corresponding pixels located in the image of the object.
US10964087B2
One embodiment provides a graphics processor comprising a hardware graphics rendering pipeline configured to perform multisample anti-aliasing, the hardware graphics rendering pipeline including pixel processing logic to determine that each sample location of a pixel of a multisample surface is associated with a clear value and resolve a color value for the pixel to a non-multisample surface via a write of metadata to indicate that the pixel has the clear value. The resolve can be a stenciled resolve that automatically bypasses execution of a pixel shader for pixels having clear color data.
US10964076B2
This disclosure relates generally to image processing, and more particularly to method and system for image reconstruction using deep dictionary learning (DDL). The system collects the degraded image as test image and processes the test image to extract sparse features from the test image, at different levels, using dictionaries. The extracted sparse features and data from the dictionaries are used by the system to reconstruct the HR image corresponding to the test image.
US10964075B2
A method for reconstructing a radioactive emission image of an overall volume having first and second volumetric regions, each volumetric region having respectively independent dynamic characteristics. The method comprises the following steps: a) obtaining radioactive emissions from the overall volume, including the volumetric regions, b) reconstructing an initial radioactive emission image of the volumetric region according to the radioactive emissions, c) segmenting the initial radioactive emission image to delineate the first and second volumetric regions, and d) separately reconstructing the first and the second volumetric regions according to the respectively independent dynamic characteristics.
US10964055B2
A system and method for detecting, positioning, and tracking objects, including drones, is provided. One provided method includes calculating first estimated location parameters of an object based on a first image from a first image sensor. The method also includes calculating second estimated location parameters of the object based on a second image from a second image sensor. Certain embodiments may also combine the first and second estimated location to determine first physical location parameters of the object.
US10964052B2
The present disclosure generally relates to a novel method of selecting a suitable tool for use in handling an operable tool in relation to e.g. an electrical vehicle contact. The present disclosure also relates to a corresponding system and a computer program product.
US10964039B2
A depth sensing system includes a sensor having first and second sensor pixels to receive light from a surface. The system also includes a filter to allow transmission of full spectrum light to the first sensor pixel and visible light to the second sensor pixel while preventing transmission of infrared light to the second sensor pixel. The system further includes a processor to analyze the full spectrum light and the visible light to determine a depth of the surface. The filter is disposed between the sensor and the surface.
US10964032B2
The present disclosure relates to a camera arrangement (100) for measuring a movement of a person (150). The camera arrangement (100) comprises a camera (110) and is arranged to repeatedly determine at least one distance (120) between at least one area (160) on the person (150) and corresponding pixels in the camera (110) based on light (130) received from the at least one area (160). The camera arrangement (100) is adapted to receive different signal strengths between the corresponding pixels in the camera (110) and pixels in the vicinity of the corresponding pixels so that at least some of the corresponding pixels and the pixels in the vicinity of the corresponding pixels are neither over- nor underexposed. The camera arrangement (100) is adapted to base the determining of the at least one distance (120) on at least some of the corresponding pixels and the pixels in the vicinity of the corresponding pixels which are neither over- nor underexposed.
US10964031B2
Video analysis methods are described in which abnormalities are detected by comparing features extracted from a video sequence or motion patterns determined from the video sequence with a statistical model. The statistical model may be updated during the video analysis.
US10964023B1
An image segmentation system to perform operations that include causing display of an image within a graphical user interface of a client device, receive a set of user inputs that identify portions of a background and foreground of the image, identify a boundary of an object depicted within the image based on the set of user inputs, crop the object from the image based on the boundary, and generate a media item based on the cropped object, wherein properties of the media object, such as a size and a shape, are based on the boundary of the object.
US10964022B2
In an image processing method (18), for images (9) in a image sequence (8), in each case a position indication (23) of a center (24) of the image content (10) of individual images (9) is calculated in a completely computer-implemented and/or hardware-implemented, statistical evaluation method (20). The center (24) is defined by a circle section (62) which is described or characterized by a separation line (12) between the image content (10) and a periphery (11) which is supplementary to the image content (10) in the image (9) or complementary therewith.
US10964015B2
Embodiments of the present invention facilitate product defect detection. A computer-implemented method comprises: receiving, by a device operatively coupled to one or more processors, a template image of a normal product; generating, by the device, one or more geometric training parameters for transforming the template image; and transforming, by the device, the template image using the one or more geometric training parameters to generate a transformed image for training a data model, wherein the trained data model being used for aligning the template image and an image under inspection of a product.
US10964013B2
A system, method, and non-transitory computer readable medium are provided for training and applying defect classifiers in wafers having deeply stacked layers. In use, a plurality of images generated by an inspection system for a location of a defect detected on a wafer by the inspection system are acquired. The location on the wafer is comprised of a plurality of stacked layers, and each image of the plurality of images is generated by the inspection system at the location using a different focus setting. Further, a classification of the defect is determined, utilizing the plurality of images.
US10963997B2
A method and a digital video camera for reducing intensity variations in a video stream depicting a scene comprising capturing, using a first sensor setting, a first frame; detecting a change in intensity in a portion of the first frame, the portion represents a first area of the scene; determining a second sensor setting based on the first frame; capturing, using the second sensor setting, a second frame; creating a local tone mapping mask, wherein a local tone mapping in the first area of the scene is different from a local tone mapping in an area outside the first area, and wherein the local tone mapping in the area outside the first area is based on a relation between the first sensor setting and the second sensor setting; and applying the local tone mapping mask to the second frame.
US10963996B2
An image processing method and apparatus are disclosed, to improve quality of an image on which color processing is performed. The method includes: determining color values of N color components of each pixel of a to-be-processed image, where N is a natural number greater than 1; determining N ratios of a luminance value of each pixel to the color values of the N color components; determining N first color adjustment coefficients based on the N ratios; and performing color processing on each pixel based on the N first color adjustment coefficients and the color values of the N color components to obtain a target image.
US10963990B2
Methods, systems, and non-transitory computer readable medium are described for automated image measurement for process development and optimization. A method includes receiving original images including a first original image. Each original image is of a corresponding product associated with a manufacturing process. The method further includes performing, based on process information about the manufacturing process, feature extraction to identify features of the first original image that are expected to change based on manufacturing parameters of the manufacturing process. The method further includes generating a first synthetic image of synthetic images by performing targeted deformation of one or more of the features of the first original image. The method further includes using the original images and the synthetic images to train a machine learning model to automatically determine an image processing algorithm to use for measuring one or more attributes of images of product associated with the manufacturing process.
US10963981B2
Methods and systems for tracking image senders using client devices are described herein. A computing system may receive an image containing a first watermark vector corresponding to a user account of an image sender. The computing system may convert the image to a frequency domain image that contains the first watermark vector. From the frequency domain image, the computing system may identify the first watermark vector. The computing system may compare the first watermark vector to each of a plurality of stored watermark vectors, each corresponding to a known user account, to determine a probability of a match. The computing system may determine the user account of the sender of the image by determining which of the plurality of stored watermark vectors has a highest probability of a match, and may send, to a workplace administrator platform, an indication of the user account.
US10963979B1
A remote-controlled washer, dryer, laundry product dispenser and payment system and operating method thereof, and is the front-end of the present invention. Said front-end allows the present invention to communicate with each dryer connected to a common vent. Said communication allows the present invention to sense conditions associated with each and every dryer attached to said common vent and control each such dryer. Consequently, the present invention, unlike anything in the prior art, allows an array of said dryers to be remotely controlled by a venting system.
US10963976B2
Systems and methods for providing information on construction errors based on construction site images are provided. For example, image data captured from a construction site using at least one image sensor may be obtained. The image data may be analyzed to identify at least one construction error. Further, the image data may be analyzed to identify a type of the at least one construction error. In response to a first identified type of the at least one construction error, first information may be provided, and in response to a second identified type of the at least one construction error, providing the first information may be forgone.
US10963967B1
A computer system and method for associating hand placement on a vehicle steering wheel with a driving behavior is described. A sensor system is disposed on the steering wheel configured to detect contact of driver hands upon the steering wheel. A computer processor is coupled to the sensor system to receive and analyze data indicative of hand placement on the steering wheel to determine hand placement. A transceiver device communicates with the computer processor whereby data indicative of hand placement is transmitted to a computer server device associated with an insurance company providing insurance for the vehicle.
US10963961B1
Embodiments of a system and method are described for generating a finance attribute. In one embodiment, the systems and methods retrieve raw tradeline data from a plurality of credit bureaus, retrieve industry code data related to each of the plurality of credit bureaus, determine one or more tradeline leveling characteristics that meet at least one pre-determined threshold, and generate a finance attribute using the selected leveling characteristics.
US10963957B2
The technology disclosed relates to creation and operation of a marketplace among trusted small and medium sized banks for participation in commercial loans too large for an individual participating bank to undertake on its own. This technology can be applied to formation of other marketplaces in which trust matters and controlled dissemination of opportunity information, as in layers or rounds, proceeds manually. Aspects of the technology disclosed can be used by initiators and participants to syndicate loans once a marketplace is established, whether the market is established applying the technology disclosed or otherwise. This technology also can be applied to syndicate other opportunities or to resell participations in syndicated loans that have closed and been funded.
US10963955B2
Apparatuses, methods, systems, and program products are disclosed for optimizing aggregation routing over a network. An apparatus includes a processor and a memory that stores code executable by the processor. The code is executable by the processor to receive a request for aggregated account data accessible from a data aggregator server, select a data aggregator server from a plurality of data aggregator servers to service the request for the aggregated account data based on a plurality of factors associated with each of the plurality of data aggregator servers, format a request for the aggregated account data to be compatible with the selected data aggregator server, route the formatted request over the network to the selected data aggregator server, and receive the requested aggregated account data over the network from the selected data aggregator server.
US10963954B1
Embodiments include apparatuses and methods for aggregating temporal restricted values for accounts of a plurality of client entities. Apparatus embodiments include a memory circuit, a current value circuit, a client value circuit, a temporal value circuit, an aggregation circuit, and a net value circuit. The current value circuit determines current value data for accounts attributed to the entity ID. For each client entity ID, the client value circuit determines a participation condition for a value attributable to the client entity ID. The temporal value circuit identifies the participation condition indicates accounts of the client entity are temporally restricted and computes a temporal value corresponding the value. The aggregation circuit aggregates the computed temporal values for the client entity IDs to determine an aggregate temporal value. The net value circuit computes a net value of accounts for the entity based on the determined current value and the aggregated temporal value.
US10963950B2
Various embodiments are directed to a system for automatically and dynamically facilitating various transactions via a hyperlocal marketplace. A smart home system, for example, may track all perishable items within the home. Any items expected to have a surplus may be offered for sale to other homes in the hyperlocal marketplace. Any items expected to have a shortage may be identified and made known to the other homes in the hyperlocal marketplace. Bids may be made on the shortage items that may be offered for sale by the marketplace.
US10963939B1
Various embodiments provide techniques for generating a style profile in which items are recognized in image data, analyzed for their attributes, and categorized based on those attributes. In various embodiments, computer vision techniques can be used to analyze the image data and subsequent image data to update the generated style profiles. The style profiles may be associated with a person, event, or the like and provide users with items having similar characteristics or attributes, which may be available for purchase in an electronic marketplace. The style profiles may be updated by analyzing user interaction with the provided items and by receiving additional image data. Additionally, recommendations may be provided based on search queries that identify certain events or style profiles.
US10963936B2
A method for providing third party feedback associated with a real estate property including receiving buyer feedback regarding a real estate property from a handheld device operating the real estate feedback application; and providing third party feedback based on the buyer feedback from a third party feedback application.
US10963924B1
A computing device can obtain data describing at least one document, the at least one document referencing at least one media object, wherein a portion of the at least one media object includes one or more characters. The computing device can obtain data describing the one or more characters in the at least one media object in the at least one document. The computing device can generate an updated copy of the at least one document that includes the data describing the one or more characters in the at least one media object. The computing device can present, on a display screen of the computing device and through an interface, the updated copy of the at least one document, wherein the one or more characters in the at least one media object are able to be selected or searched.
US10963922B1
A real-time messaging platform allows advertiser accounts to pay to insert candidate messages into the message streams requested by account holders. To accommodate multiple advertisers, the messaging platform controls an auction process that determines which candidate messages are selected for inclusion in a requested account holder's message stream. Selection is based on a bid for the candidate message, the message stream that is requested, and a variety of other factors that vary depending upon the implementation. The process for selection of candidate messages generally includes the following steps, though any given step may be omitted or combined into another step in a different implementation: targeting, filtering, prediction, ranking, and selection.
US10963916B2
Systems and methods are disclosed for dynamically analyzing and providing the quality of one or more content items at the time, or substantially close to the time, they are received by a data processing system. The systems and methods described herein can maintain and update the quality score for improving previously created content items after they have been published. The one or more content items can include one or more assets (e.g., one or more headlines, one or more descriptions, images, video, etc.). The data processing system can use numerical analysis methods to determine an overall quality (e.g., estimated clicks) of the content items received by the data processing system using a trained model.
US10963910B2
The presently disclosed subject matter includes a computer-implemented method and system of automatically generating quality scores in a content distribution system; the content distribution system enables the presentation of (digital) content on a display device of computer devices that enable users to engage with the presented content. The quality scores enable to detect and mitigate intent-less (e.g. fraudulent or low quality) user engagements with the user interface in the content distribution system. According to one example, the presently disclosed subject matter enables identification and mitigation of cyber theft in the form of engagement fraud in the content distribution system.
US10963908B2
A social media website which allocates points to participants for a variety of activities by either the participant or by others, who may be other participants. Allocation of points results in rankings of participants, wherein higher ranked participants are allocated more opportunities for accumulating advertising revenue. Ads placed throughout the system's various pages may have their potential conversion value ascribed to designated groups or persons, as the ranked participant desires. Retained revenues may be used by a participant to purchase goods from participating vendors.
US10963907B2
An example method involves determining an impressions adjustment factor for a first demographic group based on first impressions reported by a client device to a first internet domain and second impressions reported by the client device to a second internet domain. The first and second impressions correspond to same media accessed on the client device. The example also involves determining a misattribution-corrected impressions count for the first demographic group based on the impressions adjustment factor and based on a second impressions count determined at the second internet domain for the first demographic group. The second impressions count has an error based on some of the second impressions being misattributed at the second internet domain to the first demographic group when the some of the second impressions correspond to a second demographic group.
US10963904B2
Systems and methods are provided for automatically sending an electronic digital document to a second destination in response to determining that a user associated with a first destination is unable to act on an action associated with the document. In an embodiment, a digital processing system receives a first document through a procurement management system along with digital data identifying a first destination account for the first document. The digital processing system generates a message to a first destination account in order to send the first document and a first prompt including a selectable option for a recipient to identify whether the recipient is capable of acting upon the document. When a selection is received indicating that the recipient is not capable of acting upon the document, a second prompt is displayed requesting input of a second destination to receive the document. In response to receiving an identification of the second destination, the digital processing system automatically sends the document to the second destination.
US10963903B1
A workflow management system enables an entity to store information components in one or more publicly accessible databases, the information components associated with an acquisition by the acquisition entity. A unique entity identifier is associated with the information components in the databases, such that when reviewing entities access the information component via the databases and perform a similar event, a similar event object with the unique entity identifier is transmitted to the workflow management system. The information components may also be distributed by secondary entities, which may be automatically selected by the workflow management system based on historical data associated with respective secondary entities. When event objects initiated by information components stored by a secondary entity are received at the workflow management system, some or all of a maximum value increment associated with the acquisition is partitioned between the secondary entity and the acquisition entity.
US10963889B2
Integrity of a physical object is verified by receiving, data encapsulating a request to verify the integrity of the physical object. Subsequently, a data structure is accessed that includes a plurality of linked segments each characterizing an entity within a supply chain for the physical object. Each segment includes a respective predecessor field and a respective hash value. All of the segments can be iterated through in reverse chronological order to confirm, for each segment, whether a value for the predecessor field is equal to a hash value in a hash field in an immediately previously segment, the hash value being a hash of all values of the particular segment. Data characterizing the iteration can then be provided. Related apparatus, systems, techniques and articles are also described.
US10963883B1
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for receiving a vehicle identifier (VID), the VID uniquely identifying a vehicle of a user, receiving a response that indicates the user and that provides user information associated with the user, the user information including one or more of behavioral information and disbursement information, and at least partially performing an operation based on the user information.
US10963880B2
The specification discloses a system and a method for realizing identity identification based on a radio frequency identification technology. The system comprises: a radio frequency detector on the ground and configured to detect radio frequency tags and send, when a radio frequency tag is detected, information carried in the radio frequency tag to a controller; a camera configured to collect a face image and send the collected face image to the controller; and the controller, configured to: determine, according to the information, a first identification of a user corresponding to the radio frequency tag, determine, according to the face image, a second identification of the user, and control a turnstile to allow the user to pass through when the first identification of the user and the second identification of the user match.
US10963870B2
Technologies are generally described for methods and systems effective to secure process synchronized requests after at least one secure inter-device communication link between the originating and confirming communication devices is established. A method may include forwarding, by the confirming communication device the request and receiving, by a server, a first request from the originating device and at least one second request from the confirming device. The method may also include, by the server, determining a sequence of receiving of the first and the at least one second requests and processing the requests in order to authenticate a communication device, accept or reject a financial transaction, based on the receiving sequence and receiving time difference.
US10963855B2
Improvements in a portable vehicle fueling kiosk is disclosed. The kiosk is constructed on a pallet or a skid that allows the kiosk to be placed, located or moved to a location where the fuel dispensing is desired. A fuel tanker that would normally dispense fuel to a storage tank of a gas station is connected to one side of the kiosk. The kiosk accepts payment by nearly any form of money, credit card or token to measure, dispense and bill or invoice the user. The kiosk can have a Wi-Fi or cellular communication to communicate with a user at a distance and can monitor, use, status and remaining fuel in the tanker. If a fuel tanker has been depleted additional tankers can be connected to the kiosk, and when the kiosk is no longer needed it can be transported to another location.
US10963854B2
One or more implementations of the present specification provide a blockchain-based electronic bill reimbursement method, apparatus, and an electronic device. The blockchain stores electronic bills. The method includes determining whether a maintained target electronic bill is in an unreimbursed state in response to detecting a reimbursement transaction broadcasted by a reimbursement initiator for the target electronic bill to the blockchain; if the target electronic bill is in the unreimbursed state, updating the target electronic bill from the unreimbursed state to a reimbursement lock state; instructing a reimbursement acceptor to perform reimbursement processing on the target electronic bill; determining whether a reimbursement result corresponding to the target electronic bill is broadcasted by the reimbursement acceptor to the blockchain; and if the reimbursement result is detected, updating the target electronic bill from the reimbursement lock state to a reimbursed state.
US10963839B2
Nested hierarchies can be efficiently analyzed by normalizing a portion of the hierarchy as defined by a limiting factor for the hierarchy. In a project hierarchy wherein each project contains a task hierarchy, each task hierarchy can be normalized. Further, the projects can be assigned to levels such that data for each level can be indexed, partitioned, or otherwise differentiated. The data then can be efficiently rolled up by level using the partially normalized hierarchy.
US10963837B2
Legal professionals often conduct online research as part of their efforts to produce documents, such as legal briefs. The present inventor recognized that online research tools and desktop applications, such as word processors, are functionally isolated from each other, forcing users to awkwardly switch between them as they work. Accordingly, the inventor devised, among other things, an exemplary toolbar that resides adjacent an active application window, such as a word processor. In operation, a user selects one or portions of text, such as a name or fact pattern, in the window, and activates the toolbar using a right-click command. Upon activation, a customizable menu is displayed, enabling the user to select from one or more listed workflow tasks and ultimately to cause an online research system to return search results based on the task and text selections.
US10963835B1
Described is a multiple-camera system for use in capturing images of users within a materials handling facility and processing those images to monitor the movement of users. For large materials handling facilities, a large number of cameras may be required to monitor the facility. Processing of the data generated from a large number of cameras becomes difficult. The implementations described herein include a hierarchy that allows image data from any number of cameras within a materials handling facility to be processed without substantially increasing the processing time needed or sacrificing processing capabilities.
US10963833B2
The present application provides a method for processing logistics information, so as to process original logistics information uploaded by a logistics system into logistics information of a standardized format. Firstly, according to a logistics state indicated by logistics information, an information presentation template containing multiple information items is determined and logistics presentation information corresponding to each information item is determined, and the logistics presentation information is filled into the information presentation template to obtain standardized logistics information to be presented to a user, where the standardized logistics information better meets the requirement of the degree of attention from the user on the logistics information, and is easier for the user to read, so the user experience is good. Besides, the present application also provides an apparatus for processing logistics information, to ensure the application and implementation of the method in practice.
US10963832B2
A device may receive a request for a product. Based on the request, the device may determine a geographic location and delivery time for delivery of the product, and the device may identify product locations that are capable of providing the product and located near the geographic location. The device may determine, for each of the product locations and based on the product and at least one product location characteristic, a fulfillment time indicating when the product will be prepared for delivery. In addition, the device may identify at least one potential courier capable of transporting the product. Based on the fulfillment time, the delivery time, the geographic location for delivery, and at least one courier characteristic associated with the potential courier, the device may select a particular product location and a particular courier and perform an action based on the particular product location or the particular courier.
US10963829B2
Systems, methods, and other embodiments associated with defining and evaluating a project initiative are described. In one embodiment, a method includes displaying an initiative definition interface for use in defining the project initiative for an entity. The example method may also include receiving an objective definition, a capability definition, a benefit definition, and an implementation roadmap definition through the initiative definition interface. The example method may also include assigning ranks to the objective definition, the capability definition, the benefit definition, and the implementation roadmap definition based upon a definition completeness metric. The example method may also include generating an initiative viability score based upon the ranks. The example method may also include displaying an initiative redefinition suggestion for redefining the project initiative based upon the initiative viability score being below a threshold.
US10963825B2
Embodiments of the present invention provide a passive relay device for farming vehicles and implements, as well as an online farming data exchange, which together enable capturing, processing and sharing farming operation data generated during combined use of the farming vehicle and farming implement at a farming business. The farming operation data includes detailed information about individual farming operations, including without limitation the type of farming operation, the location of the farming operation, the travel path for the farming operation, as well as operating parameters and operating events occurring while the farming operation is performed.
US10963821B2
An informatics platform provides an architecture to integrate information from relevant patient information systems. The informatics platform may include: a workflow tool that can be used to prepare and review information at multi-disciplinary board meetings; a visual timeline of patient events; a search engine to search for patients with specific attributes; a graphing tool that can display disparate clinical variables in a single chart; a virtual PinBoard for users to identify relevant patient information for board meetings; an image viewing application that can provide for comparison of images from different information systems; structured reporting functionality that incorporates system aggregated patient information and board recommendations; an application interface that integrates clinically relevant tools to provide patient specific references; a collaboration interface that facilitates communication of patient specific information and documents the discussion threads as independent reference points; and a default display of relevant patient information customized for each clinical specialty.
US10963815B2
The systems and methods described herein include training a well performance predictor based on field data corresponding to a hydrocarbon field in which a well is to be drilled; generating a number of candidate well parameter combinations for the well and predicting a performance of the well for each candidate well parameter combination using the trained well performance predictor; and determining an optimized well parameter combination for the well such that the predicted performance of the well is maximized.
US10963814B2
A noise reduction and smart ticketing application for social media-based communication systems may identify social media-based communications from users who are attempting to engage with a brand or entity on a social media platform as actionable, and distinguish other communications as noise. The noise reduction and smart ticketing system may use machine learning to determine which social media communications are actionable for a given company or other organization, and generates tickets for actionable communications. Actionable communications may include, but are not limited to, technical support issues, inquiries about a product release date, grievances, incidents, suggestions to improve service, critiques of company policies, etc. Non-actionable communications (i.e., “noise”) may include, but are not limited to, suggestions to other users, promotions, coupons, offers, marketing campaigns, affiliate marketing, statements that a user is attending an event, etc.
US10963811B2
The invention notably relates to a computer-implemented method for selecting an appropriate decision by constraining options assessed with a model. The method comprises selecting a model capable of receiving inputs and providing output in response to an input; training a model with a set of data representing similar events; generating options that represent hypothetical events; computing target values by applying the trained model on the generated options; computing index for indexing the generated options and target values associated with the trained model; querying the said index for obtaining a selection of a set of options, the selection being performed according to a specific constraint; returning, as a result of the query, a subset of the set of the generated options, the subset being ranked according to the target values associated with each option.
US10963804B1
Graphical interactive prediction evaluation is provided. An extrapolation threshold value is computed using an extrapolation threshold function with an explanatory variable value of each of a plurality of explanatory variables read for each observation vector of a plurality of observation vectors. A model is fit to the observation vectors. Model results are presented in a display that include a first value for each explanatory variable. An indicator of a second value of at least one of the explanatory variables that is different from the first value is received. An extrapolation value is computed using an extrapolation function with the second value and the first value of others of the explanatory variables. The extrapolation value is compared to the extrapolation threshold value. An extrapolation indicator is presented in the display when the comparison indicates that the second value is an extrapolation.
US10963803B2
A framework system and method for developing hybrid voice/video QoE predictors, which use both network/codec/client parameters as well as the voice/video reference sample(s). The prediction model/algorithm uses deep packet inspection to produce relevant input and therefore the network's impact on the voice/video QoE can be determined without recording actual media (voice/video) content. Therefore, the QoE predictors are neither solely media based as available perceptual metrics, nor available parametric based. The present hybrid voice/video QoE uses the reference/original media information, unlike prior art hybrid video only QoE which use the recorded media (video only).
US10963802B1
A computing device selects decision variable values. A lower boundary value and an upper boundary value is defined for a decision variable. (A) A plurality of decision variable configurations is determined using a search method. The value for the decision variable is between the lower boundary value and the upper boundary value. (B) A decision variable configuration is selected. (C) A model of the model type is trained using the decision variable configuration. (D) The model is scored to compute an objective function value. (E) The computed objective function value and the selected decision variable configuration are stored. (F) (B) through (E) is repeated for a plurality of decision variable configurations. (G) The lower boundary value and the upper boundary value are updated using the objective function value and the decision variable configuration stored. Repeat (A)-(F) with the lower boundary value and the upper boundary value updated in (G).
US10963801B2
Techniques for generating solutions from aural inputs include identifying, with one or more machine learning engines, a plurality of aural signals provided by two or more human speakers, at least some of the plurality of aural signals associated with a human-perceived problem; parsing, with the one or more machine learning engines, the plurality of aural signals to generate a plurality of terms, each of the terms associated with the human-perceived problem; deriving, with the one or more machine learning engines, a plurality of solution sentiments and a plurality of solution constraints from the plurality of terms; generating, with the one or more machine learning engines, at least one solution to the human-perceived problem based on the derived solution sentiments and solution constraints; and presenting the at least one solution of the human-perceived problem to the two or more human speakers through at least one of a graphical interface or an auditory interface.
US10963799B1
Provided is a self-correcting stock price movement predictor built with Artificial Intelligence (AI) techniques that are for empirical data and represent trends on a particular day for an identified stock. Robots, Internet bots, and so forth, are used to source events in real time in the World Wide Web and which may have a potential impact on the movement of the stock. When the web is spidered (or browsed), a device is able to capture the data, which might have an impact on the stock. The data may be structured and ranked using various techniques, including AI techniques. These techniques are applied in order to predict the stock behavior and the movement of that particular stock. An output of the tool is provided to automatically determine an action to take relative to an identified stock.
US10963797B2
A system for remote monitoring of a machine is provided. The system includes a data store to store machine data associated with an operation of the machine. The system includes an analyzer comprising a plurality of analytics engines to analyze the machine data. The analyzer selects one or more analytics engines based at least on one of machine data and a type of the machine. The analyzer is further configured to analyze machine data using the selected one or more analytics engines and to determine a plurality of exceptions. The system includes a rules engine to process at least two of the plurality of exceptions and determine a smart exception, wherein the smart exception is a hierarchical combination of the at least two of the plurality of exceptions. The system includes an interface to display a notification to a user in the event of a smart exception.
US10963791B2
Certain embodiments involve generating or optimizing a neural network for risk assessment. The neural network can be generated using a relationship between various predictor variables and an outcome (e.g., a condition's presence or absence). The neural network can be used to determine a relationship between each of the predictor variables and a risk indicator. The neural network can be optimized by iteratively adjusting the neural network such that a monotonic relationship exists between each of the predictor variables and the risk indicator. The optimized neural network can be used both for accurately determining risk indicators using predictor variables and determining adverse action codes for the predictor variables, which indicate an effect or an amount of impact that a given predictor variable has on the risk indicator. The neural network can be used to generate adverse action codes upon which consumer behavior can be modified to improve the risk indicator score.
US10963790B2
A method includes receiving input that identifies one or more data sources and determining, based on the input, a machine learning problem type of a plurality of machine learning problem types supported by an automated model building (AMB) engine. The method also includes generating an input data set of the AMB engine based on application of one or more rules to the one or more data sources. The method further includes, based on the input data set and the machine learning problem type, initiating execution of the AMB engine to generate a neural network configured to model at least a portion of the input data set.
US10963786B1
Disclosed is a neural network enabled interface server and blockchain interface establishing a blockchain network implementing event detection, tracking and management for rule based compliance, with significant implications for anomaly detection, resolution and safety and compliance reporting.
US10963785B2
Methods, systems and apparatus that provide for perceptual, cognitive, and motor behaviors in an integrated system implemented using neural architectures. Components of the system communicate using artificial neurons that implement neural networks. The connections between these networks form representations—referred to as semantic pointers—which model the various firing patterns of biological neural network connections. Semantic pointers can be thought of as elements of a neural vector space, and can implement a form of abstraction level filtering or compression, in which high-dimensional structures can be abstracted one or more times thereby reducing the number of dimensions needed to represent a particular structure.
US10963782B2
The technology disclosed relates to an end-to-end neural network for question answering, referred to herein as “dynamic coattention network (DCN)”. Roughly described, the DCN includes an encoder neural network and a coattentive encoder that capture the interactions between a question and a document in a so-called “coattention encoding”. The DCN also includes a decoder neural network and highway maxout networks that process the coattention encoding to estimate start and end positions of a phrase in the document that responds to the question.
US10963780B2
Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for three-dimensionally stacked neural network accelerators. In one aspect, a method includes obtaining data specifying that a tile from a plurality of tiles in a three-dimensionally stacked neural network accelerator is a faulty tile. The three-dimensionally stacked neural network accelerator includes a plurality of neural network dies, each neural network die including a respective plurality of tiles, each tile has input and output connections. The three-dimensionally stacked neural network accelerator is configured to process inputs by routing the input through each of the plurality of tiles according to a dataflow configuration and modifying the dataflow configuration to route an output of a tile before the faulty tile in the dataflow configuration to an input connection of a tile that is positioned above or below the faulty tile on a different neural network die than the faulty tile.
US10963772B1
A wearable multi Radio Frequency Identification (RFID) device is disclosed. The wearable multi RFID device includes a container that includes an inner housing that further includes a plurality of fixed slots configured to receive a plurality of RFID tags. The container further includes an outer casing that at least partially encloses the inner housing circumferentially and is configured to slide around the inner housing in the container. The outer casing includes a layer of electromagnetic shielding material. The outer casing is further configured to shield the plurality of RFID tags from being scanned, at a first position and selectively expose one of the plurality of RFID tags for being scanned, at an associated second position from a plurality of second positions, based on mapping with at least one criterion defined by a user.
US10963771B2
A radio frequency identification (RFID) enabled mirror includes a mirror comprising a reflective layer. The reflective layer comprises at least one layer of a metallic material. At least one portion of the reflective layer is removed to form a booster antenna from a remaining portion of the reflective layer. A dielectric coating is applied to the mirror where the reflective layer was removed. The RFID-enabled mirror further includes an RFID chip coupled to the booster antenna.
US10963766B2
A method for controlling radiation scattering, comprises: directing radiation to a metamaterial having an array of individually tunable and near field coupled resonators, varying an individual resonance frequency of at least one of the resonators to provide a collective resonance scattering of the radiation by the metamaterial, measuring a scattering signal of the collective resonance scattering of the radiation, and identifying the metamaterial based on the scattering signal.
US10963765B2
Electronic combinable modular system based on a plurality of multidimensional geometric forms, to locate the position of a plurality of Transponder RFID in a multidimensional space and to read and write the informations included. The system includes: a plurality of combinable modular local units, a plurality of combinable modular subsystems, at least a microcontroller and at least an irradiating antenna, connected to the modular subsystems, to put any individual modular local unit in communication with at least a reader/writer Receiver of Transponder RFID. The innovation of the finding allows significant improvements and cost-effectiveness in the construction of arrays or series of antennas as well as new operating modes in recreational, educational and communication fields. The innovation is significant as it facilitates the interaction even to children not yet schooled and to disabled people of any age.
US10963764B2
According to another embodiment, a system includes a driver circuit that drives a first output and a second output; a coil coupled between the first output and the second output such that the driver circuit drives current through the coil in response to control signals; and a programmable slew circuit coupled to the driver circuit. In some embodiments, a switch is coupled between the first output and the coil. In some embodiments an over-voltage protection circuit is coupled to protect the driver circuit.
US10963763B2
It is an object of the present invention to provide a technique capable of suppressing power consumption when printing an image with high density in a thermal printer. the recording paper contains a reversible thermochromic recording material which is in a color-developed state in an initial state, starts color reduction at T1 or higher after the start of rising temperature, and turns into an achromatized state at T2 or higher which is higher than T1. A thermal printer includes the input unit that receives image data, the image processing unit that converts the density for each pixel of the image data into heating data based on the density and temperature characteristics of the reversible thermochromic recording material, and the print processing unit that makes the thermal head heat the recording paper for each pixel based on the heating data to form an image on the recording paper.
US10963761B2
A recording system records a recording image based on image data by repeating a pass operation in which a nozzle row discharges ink while moving relatively to a recording medium in a main scanning direction and a transport operation in which the nozzle row and the recording medium relatively move in a sub scanning direction intersecting the main scanning direction. The recording system includes a code detecting unit that detects an area where code information included in the image data is located, and a recording controller that controls the pass operation and the transport operation based on the image data and a result of the detection by the code detecting unit. The recording controller controls such that the number of times of the pass operation of recording the area is smaller than that of the pass operation of recording an area adjacent to the area in the main scanning direction.
US10963757B2
A neural network model fusion method and an electronic device using the same are provided. The neural network model fusion method includes the following steps. An image is received. The image is analyzed through several neural network models. The neural network models include at least two of a degree classification model, a multi-class identification model and an object detection model. Several analysis results are obtained according to the neural network models. These analysis results are converted into a number of conversion factors. The conversion factors are inputted into a fusion model to obtain a fusion result.
US10963752B2
An artefact is received. Features are extracted from this artefact which are, in turn, used to populate a vector. The vector is then input into a classification model to generate a score. The score is then modified using a step function so that the true score is not obfuscated. Thereafter, the modified score can be provided to a consuming application or process. Related apparatus, systems, techniques and articles are also described.
US10963744B2
Approaches for automated fashion designing are described. A computer-implemented method for automated fashion designing includes: training, by a computer device, computer models using deep learning based computer vision; identifying, by the computer device, at least one gap using cognitively determined fashionability scores (F-scores); and creating, by the computer device, a new fashion design using the computer models and the at least one identified gap.
US10963740B2
A portable checkout unit automatically generates training data for an automatic checkout system as a customer collects items in a store. A customer uses an item scanner of portable checkout unit to generate a virtual shopping list of items collected in the shopping cart. When the customer adds a new item to the shopping cart or on some regular interval, the portable checkout unit captures images of the items contained by the shopping cart and can generate bounding boxes for each product in each image. The bounding boxes can be associated with item identifiers from previously-generated bounding boxes to identify the items captured by the bounding boxes. Each bounding box paired with an item identifier can then be used as training data for an automated checkout system.
US10963736B2
Provided is technique of object recognition that can accurately recognize an object. An object recognition apparatus (i) generates property data that highlights a specific property based on target data, (ii) extracts a discrimination-use feature amount used for discrimination of each piece of the property data, (iii) calculates discrimination information used for discrimination of the property data, (iv) extracts a reliability feature amount used for estimation of reliability of the discrimination information calculated for each piece of the property data, (v) estimates the reliability of the discrimination information, (vi) generates synthesized information acquired by synthesizing the discrimination information calculated for each piece of the property data and the reliability calculated for each piece of the property data, and (vii) performs processing related to the object recognition.
US10963732B2
Provided is a stereo matching method and apparatus. A stereo matching method includes acquiring detection information based on an edge detection of a first image, determining an edge line and a feature point based on the detection information, sampling a reference pixel from the edge line and the feature point, determining a polygon with the reference pixel as a vertex, predicting a search range comprising a disparity of a pixel within the polygon based on a disparity of the reference pixel, and performing stereo matching of the pixel based on the search range.
US10963723B2
Computer servers configured to perform digital image processing are discloses herein. In one embodiment, upon receiving a transcription command, a computer server performs text recognition based on patterns in a digital image to generate digital text data corresponding to the digital image. The computer server can then determine a content format of the digital text data based on the imported digital image and automatically apply the determined content format to the generated digital text data. The digital data can then be inserted into an electronic message and transmitted with the inserted typeset digital text data to a destination.
US10963717B1
A computer implemented method and system for correcting error produced by Optical Character Recognition (OCR) of text contained in an image encoded document. An error model representing frequency and type of errors produced by Optical Character Recognition Engine is generated. An OCR character string generated by OCR is retrieved. A user-defined pattern of a plurality of character strings is retrieved, where each character string represents a possible correct representation of characters in the OCR character string. The OCR character string is compared to each of the above generated character strings and a ‘likelihood score’ is calculated based on the information from the error model. The character string with the highest ‘likelihood score’ is presumed to be the corrected version of the OCR character string.
US10963707B2
An autonomous vehicle is configured to detect an active turn signal indicator on another vehicle. An image-capture device of the autonomous vehicle captures an image of a field of view of the autonomous vehicle. The autonomous vehicle captures the image with a short exposure to emphasize objects having brightness above a threshold. Additionally, a bounding area for a second vehicle located within the image is determined. The autonomous vehicle identifies a group of pixels within the bounding area based on a first color of the group of pixels. The autonomous vehicle also calculates an oscillation of an intensity of the group of pixels. Based on the oscillation of the intensity, the autonomous vehicle determines a likelihood that the second vehicle has a first active turn signal. Additionally, the autonomous vehicle is controlled based at least on the likelihood that the second vehicle has a first active turn signal.
US10963706B2
In an example embodiment, a computer-implemented method generates, using first machine learning logic, a first compact representation of a first object in a first image captured from a first perspective; generates, using second machine learning logic, a second compact representation of a second object in a second image captured from a second perspective; computes a similarity score reflecting a level of similarity between the first compact representation of the first object and the second compact representation of the second object; and identifies a subset of features of the first object and the second object as being more determinative than other features of the first object and the second object based on a comparison of the similarity score to a predetermined target output.
US10963705B2
A method for point-to-point traffic prediction comprises: obtaining, from a plurality of computing devices, time-series locations of a plurality of vehicles respectively associated with the computing devices, wherein: the time-series locations form first trajectory data comprising corresponding trajectories at least passing from a first point O to a second point D within a first time interval; obtaining a traffic volume between O and D for a second time interval that is temporally after the first time interval; training one or more weights of a neural network model by inputting the first trajectory data and the traffic volume to the neural network model and using the obtained traffic volume as ground truth to obtain a trained neural network model; and inputting second trajectory data between O and D to the trained neural network model to predict a future traffic volume between O and D for the a future time interval.
US10963702B1
Methods and systems for video segmentation and scene recognition are described. A video having a plurality of frames and a subtitle file associated with the video are received. Segmentation is performed on the video to generate a first set video frames comprising one or more video frames based on a frame-by-frame comparison of features in the frames of the video. Each video frame in the first includes a frame indicator which indicates at least a first start frame of the video frame. The subtitle file associated with the video is parsed to generate one or more subtitle segments based on a start and an end time of each dialogue in the subtitle file. A second set of video frames comprising one or more second video frames are generated based on the video frames of the first set of video frames and the e or more subtitle segments.
US10963692B1
Image documents that have a visually perceptible geometric structure and a plurality of visually perceptible key-value pairs are grouped. The image documents are processed to generate a corresponding textually encoded document. The textually encoded documents are each assigned into one of a plurality of layout groups, wherein all textually encoded documents in a particular layout group share a visually perceptible layout that is substantially similar. Triplets are selected from the layout groups, where two documents are from the same layout group and one document is from a different layout group. The triplets are processed with a convolutional neural network to generate a trained neural network that may be used to classify documents in a production environment such that a template designed on one image document in a group permits an extraction engine to extract all relevant fields on all image documents within the group.
US10963688B2
Systems, methods, and machine readable media are provided for classifying customer feedback. In exemplary embodiments, text is captured from at least one source relating to at least one product. The text is scanned and a score is produced for sentiment for the at least one product. The text is filtered into parts of speech and key words to produce filtered text. The filtered text is transformed into a term-document matrix. A risk score is calculated and prioritized based on the term-document matrix and the sentiment score. The product and the associated risk score are reported to a subject matter expert (SME), where a determination is made whether the product is reportable or non-reportable.
US10963686B2
Methods, computer program products, and systems are presented. The methods include, for instance: identifying a candidate key corresponding to an object in a document image with a key in key ontology data, based on that the candidate key is semantically interchangeable with the key. A context, position, and style of each objects of the document image is represented in the document metadata. The candidate key is normalized into a normal form. A key class corresponding to the normal form is determined and a confidence score indicating a likelihood of the key class being representative of the candidate key is assessed. A semantic database is updated with the key class upon verification for enhanced processing of future documents.
US10963680B2
An overhead people detection and tracking system and method is provided. The system includes a memory having computer-readable instructions stored therein. The system includes a processor configured to access a plurality of video frames captured using one or more overhead video cameras installed in a space. The processor is configured to extract one or more images of the space from the plurality of video frames. Further, the processor is configured to process the one or more images to identify person detections in the space. Each detection corresponds to a person present in the space. In addition, the processor is configured to analyze the detections to define at least one of true positives and false positives associated with movement of one or more persons within the space. Furthermore, the processor is configured to maintain a count of the one or more persons entering and/or exiting the space based upon at least one of the true positives and the false positives.
US10963678B2
The present disclosure relates to a face recognition apparatus and method. The face recognition apparatus includes a camera that captures a face image a driver, a database (DB) that stores face data including the face image and one or more environmental conditions corresponding to the face image, and a controller that, when a face recognition function is performed, extracts the face data from the DB based on an environmental condition at a time of recognizing a face, and recognizes a face of the driver based on a face image of the extracted face data.
US10963677B2
Described are methods, systems, and computer-program product embodiments for selecting a face image based on a name. In some embodiments, a method includes receiving the name. Based on the name, a name vector is selected from a plurality of name vectors in a dataset that maps a plurality of names to a plurality of corresponding name vectors in a vector space, where each name vector includes representations associated with a plurality of words associated with each name. A plurality of face vectors corresponding to a plurality of face images is received. A face vector is selected from the plurality of face vectors based on a plurality of similarity scores calculated for the plurality of corresponding face vectors, where for each name vector, a similarity score is calculated based on the name vector and each face vector. The face image is output based on the selected face vector.
US10963672B2
Method for detecting the presence of a body part carrying an imprint on an imprint sensor comprising a transparent face on which a body part must be placed, an image sensor, situated opposite the transparent face, able to acquire an image of an imprint, a light source for illuminating a body part placed on the transparent face. The method comprises: switching on the light source; acquiring a multicomponent image with the image sensor, each color component of the multicomponent sensor corresponding to a predefined wavelength range; obtaining, for each color component of said multicomponent image, information representing a signal generated by said image sensor for said color component; comparing said representative items of information with each other and detecting the presence of a body part according to the result of the comparison.
US10963667B2
Provided are an under-screen biometric identification apparatus and an electronic device. The under-screen biometric identification apparatus includes: a lens disposed under a display screen for receiving an optical signal from above the display screen and formed by reflection of a human finger, where the optical signal is used to detect biometric information of the finger; a lens barrel, where the lens is fixed in the lens barrel; and a sensing chip disposed under the lens barrel for imaging based on an optical signal passing through the lens, where a distance between a photosurface of the sensing chip and an imaging surface of the lens is greater than or equal to a preset value. An under-screen biometric identification apparatus and an electronic device provided in embodiments of the present application can improve the efficiency of under-screen biometric identification.
US10963666B2
A method for obtaining an image of at least one fingerprint from a sequence of images is disclosed. The method comprises a segmentation of images in a sequence of acquired images making it possible to determine regions liable to comprise a fingerprint, a tracking of regions determined along with the sequence of images and a calculation of a confidence mark for each region determined. The confidence mark of a region determined is incremented (or respectively decremented) at each acquired image if the region is present in (or respectively absent from) the image, the increment (or respectively the decrement) being dependent on the predefined image acquisition frequency. Information making it possible to obtain a final image containing fingerprints is generated by the method when a predefined number of regions each having reached a confidence mark at least equal to a predetermined threshold is obtained.
US10963665B2
A method of setting light sources in a display panel for optical fingerprint recognition is provided. The method includes driving a portion of light sources disposed to correspond to a fingerprint recognition window which is a partial region of a display panel based on initial light source setting values, obtaining initial calibration data based on reflected light of an object received by a fingerprint recognition sensor through the fingerprint recognition window while driving the portion of the light sources; and determining final light source setting values such that powers for driving light sources of different colors among the portion of the light sources are different, the final light source setting values being determined to minimize contrast of an interference signal included in the initial calibration data.
US10963655B1
In some embodiments, a near-field sensor comprises an antenna system, transmit circuitry configured to transmit pulses via the antenna system, and receive circuitry configured to receive interrogation signals in response to transmitted pulses. The antenna system can include a first conductive path having one or more loops coupled together, and a second conductive path having one or more loops coupled together, wherein the first and second conductive path are electrically isolated from each other within the antenna system. The transmit circuitry can include a matching network to dissipate energy stored in the transmit circuitry following transmission of a pulse. The receive circuitry can include a suppression network configured to dissipate residual energy within the receive circuitry resulting from transmission of the pulse.
US10963654B2
According to an embodiment of the present disclosure, an electronic device for transmitting data comprises a memory storing the data, a processor, and a coil. The processor may perform controls to detect a data receiving device configured to detect a magnetic field corresponding to the data and apply a voltage or a current corresponding to the data to the coil in response to the detection of the data receiving device.
US10963643B2
Sentiment analysis is targeted toward a specific subject of interest (or selected subjects) in a passage of natural language text. A dependency tree is generated for the passage, and subtrees are found that have sentiment polarities which contribute to the subject(s) of interest. A targeted sentiment score is computed for the subject(s) of interest based on sentiment expressed in those subtrees. Consecutively occurring nouns in the passage are collapsed into a noun phrase, as are possessives with ensuing nouns. The sentiment expressed in a given subtree can be modified using various linguistic heuristics. For example, sentiment polarity which is modified by a negation word may be inverted, sentiment polarity which is modified by an intensifying word may be increased, or sentiment polarity which is modified by a diluting word may be decreased.
US10963639B2
Embodiments discussed herein refer to systems and methods for identifying relevantly similar sentiment in text strings.
US10963634B2
A system and method for classifying machine-generated textual data into statistical metrics are determined. The system comprises receiving machine-generated textual data from at least one data source; grouping the machine-generated textual data into a plurality of events; processing each event to determine a plurality of elements embedded therein; determining a type of each of the plurality of elements; and determining a statistical metric for each element based on at least on the type of the element.
US10963628B2
Methods, apparatuses, and computer program products are described herein that are configured to enable updating of an output text. In some example embodiments, a method is provided that comprises generating a new message for each updateable data element based on a predetermined indication. The method of this embodiment may also include determining a classification for each new message by comparing each new message with a corresponding message that describes the updateable data element. The method of this embodiment may also include generating an additional document plan tree that contains at least a portion of the new messages. The method of this embodiment may also include combining the additional document plan tree with an original document plan tree.
US10963625B1
Multilayer electronic content management is provided. A method includes determining a first section and a second section of a document for dynamic content management. The method also includes determining a first trigger event that prompts the dynamic content management on the first section and a second trigger event the prompts the dynamic content management on the second section. The method also includes implementing a first action to the first section based on an occurrence of the first trigger and a first rule, and a second action to the second section based on another occurrence of the second trigger and a second rule. The implementation may include executing a first micro-service within a metadata layer of the electronic document for implementation of the first action and executing a second micro-service within the metadata layer for implementation of the second action.
US10963621B2
Methods and systems for modifying display of applications displayed on local computing devices are described herein. A local computing device may request, from a remote application server, one or more remote applications. The local computing device, user of the remote computing device, and/or the one or more applications may be associated with layout preferences. The layout preferences may be based on a location of the local computing device, a device type and/or device properties of the local computing device, or other similar context information. Display of the one or more remote applications may be modified based on the layout preferences. A user may alter display of the one or more remote applications, and the layout preferences may be modified.
US10963612B2
A scan cell comprises: a state element and selection and combination circuitry. The selection and combination circuitry comprises first combination circuitry configured to combine a signal from a scan input of the scan cell with a signal from a functional circuit input of the scan cell to generate a first signal, second combination circuitry configured to combine the signal from the functional circuit input of the scan cell with an output signal of the state element to generate a second signal, and selection circuitry configured to select an input signal for the state element from the signal from the scan input of the scan cell, the signal from the functional circuit input of the scan cell, the first signal, and the second signal based on two selection input signals of the scan cell.
US10963608B2
A computer implemented method of passive verification of an electronic design, includes the steps of receiving a first electronic design file of a first electronic design comprised at least in part of a mixed signal or analog system, the first electronic design file including at least one first system and first subsystem, collecting first input data from at least one first system input and first subsystem input, analyzing a first parameter of the first input data, receiving a second electronic design file of a second electronic design comprised at least in part of a mixed signal or analog system, the second electronic design file including at least one second system and second subsystem that are comparable in function to the at least one first system and first subsystem of the first electronic design file, collecting second input data from at least one second system input and second subsystem input of the second design file, analyzing the first parameter of the second input data, comparing the analysis of the first parameter of the first input data of the at least one first system and first subsystem in said first design file to the analysis of the first input parameter of the second input data of the least one second system and second subsystem in the second design file and repeating the comparison for a series of input parameters to build a history of verification coverage of input parameters of the at least one second system and second subsystem of the second design file relative to the at least one first system and first subsystem of the first design file.
US10963606B2
In an embodiment, a computer-implemented method of selecting locations in a field for treatment sampling is disclosed. The method comprises receiving, by a processor, input data including a number T of treatments applied to a field, a number L of treatment locations for each treatment, a list of treatment polygons within the field, and a map for the field indicating one or more values of a set of design parameters corresponding to environment factors for each of a plurality of locations in the field. The method also comprises computing, by the processor, an environment class index for each of a group of locations in the list of treatment polygons based on the map; distributing the list of treatment polygons to the T treatments based on the computed indices; and selecting, for each of the T of treatments, L treatment locations from the group of locations in the treatment polygons distributed to the treatment. In addition, the method comprises causing display of information regarding the selected treatment locations.
US10963603B2
A method for generating/updating a database of current-voltage characteristic curves is disclosed. This method includes simulating for at least one combination of a topology of a photovoltaic cell group, an internal cell temperature(s) and a cell irradiation(s), a model of the photovoltaic cell group to provide a representative current-voltage characteristic curve, and clustering the current-voltage characteristic curves to identify at least one plurality of similar current-voltage characteristic curves. The method also includes generating a many-to-one mapping in the database to map query requests corresponding to each of the at least one plurality of similar current-voltage characteristic curves onto a single representative current-voltage characteristic curve for that plurality, each query request identifying a topology of a photovoltaic cell group, at least one internal temperature for the photovoltaic cells in the photovoltaic cell group and at least one cell irradiation for the photovoltaic cells in the photovoltaic cell group.
US10963598B2
The present disclosure is directed to a software tool that facilitates coordination between various parties that are involved in the process of rectifying a problem identified in a combined three-dimensional model file. In one implementation, the software tool may cause a computing device to (a) receive an indication requesting creation of a coordination issue that relates to a portion of a rendered three-dimensional view of a construction project, (b) in response to the receipt of the indication, create a data set defining the coordination issue, the data set including (i) a representation of the portion of the rendered three-dimensional view, and (ii) data indicating an assignee of the coordination issue, and (c) cause an indication of the coordination issue to be presented to a client station associated with the assignee.
US10963596B1
Systems and methods for creating, storing, and manipulating 3D objects in a software-supported virtual environment, and furthermore automatically generating the 3D objects in a CAD software application, are disclosed. The systems and methods allow for assemblies of the 3D objects to be saved and exported, where the saved assemblies are then imported by the CAD software application. The CAD software application includes a plug-in for generating part instances corresponding to each 3D object of the saved assembly. The plug-in includes master part models that define how the part instances are represented in the CAD software application, and how each part instance is to be connected for creating the saved assemblies in the CAD software application.
US10963589B1
Systems, methods, and apparatuses for providing a central location to manage permissions provided to third-parties and devices to access and use user data and to manage accounts at multiple entities. A central portal may allow a user to manage all access to account data and personal information as well as usability and functionality of accounts. The user need not log into multiple third-party systems or customer devices to manage previously provided access to the information, provision new access to the information, and to manage financial or other accounts. A user is able to have user data and third-party accounts of the user deleted from devices, applications, and third-party systems via a central portal. The user is able to impose restrictions on how user data is used by devices, applications, and third-party systems, and control such features as recurring payments and use of rewards, via a central portal.
US10963584B2
This invention discloses a novel system and method for displaying electronic documents on remote devices and enabling collaborative editing in conjunction with an Entity Content Management system.
US10963576B2
Systems and methods for receiving a request to analyze trust of a client system and perform actions based on a client trust profile. A trust rating server device receives a request from a client computing device to analyze the trust on the device. The request identifies at least one credential or certificate installed on the device for example. The credential or certificate is obtained and analyzed to identify key information that relates to trust, such as level of encryption, country or entity of origin, duration of credential, certifying authority, etc. A rating is established using the key information and compared to a profile or other metric. One or more credentials or certifications may be blocked, disabled, enabled or removed based on a user's profile. Trust credentials are continuously monitored on the device for changes, and new credentials are blocked that do not meet thresholds established in the user's profile.
US10963566B2
Implementations described herein disclose a malware sequence detection system for detecting presence of malware in a plurality of events. An implementation of the malware sequence detection includes receiving a sequence of a plurality of events, and detecting presence of a sequence of malware commands within the sequence of a plurality of events by dividing the sequence of plurality of events into a plurality of subsequences, performing sequential subsequence learning on one or more of the plurality of subsequences, and generating a probability of one or more of the plurality of subsequences being a malware based on the output of the sequential subsequence.
US10963565B1
An indication of an application to be installed on a local device is received. A request is transmitted to a remote server for information associated with the application. In some cases, in response to the receipt of a report from the remote server, a set of rules restricting behaviors of the application is implemented at the local device. In some cases, in response to the receipt of a report from the remote server, the installation of the application on the local device is prevented.
US10963559B1
A masked property file system receives a property key from a programmer and retrieves property key-value pairs. For each property key-value pair, the masked property file system identifies a masked value based on property files associated with the property key-value pair. For each property key-value pair, the masked property file system associates an environment for the masked value corresponding to the property key-value pair. For each property key-value pair, the masked property file system identifies an executable code for the masked value associated with the environment associated with each property key-value pair and generates a callback within the property key-value pair comprising the executable code. The masked property file system presents the property key-value pairs comprising the callbacks to the programmer. The programmer selects a callback of a property key-value pair and tire user computing device web browser is redirected to a property file service where the programmer may unmask the masked value corresponding to the executable code.
US10963537B2
A computer-based system and related method are provided for migrating data associated with a website from a first Web content management (WCM) platform to a second WCM platform. The data migrated can include templates, user and group data files, content files (media, texts and others), workflows, authorizations, among others. The system and related method can further include a transformation capability that enables modifications to website data elements during migration, including but not limited to templates, HTML, users, metadata, file assets, and content such as images, links, and text during migration. In this manner, web administrators can modify the website design during migration to a new WCM platform within an integrated process.
US10963535B2
Systems and methods for integrating mobile image capture with an internet browser application on a mobile device are provided, wherein a user viewing a web page via the internet browser application can initiate a mobile image capture process on the mobile device through the web page, capture images with a mobile image capture user interface, and then provide secure access to the captured images for the web page in order to utilize the content of the captured images. The mobile image capture process is accessible through any internet browser application via the mobile device and allows any service running on a web page to benefit from the ability to capture an image on the mobile device and obtain the content of the image through mobile image processing. The browser-based mobile image capture allows mobile devices which do not run certain third party applications to utilize mobile image capture and processing.
US10963533B2
A web browser plugin or other software can be used to integrate visualization of analytical and/or debugging information related to a web page that is being viewed. Particular elements on the web page that are instrumented for tracking can be visually augmented, allowing a developer to see where and how certain aspects of web page functionality are being tracked and/or implemented. Certain information relating to the web page may be surfaced via a graphical area that is displayed concurrently with the web page, e.g., within the web browser that is being used to view the web page. The graphical area can also include selectable elements that can be used to launch additional queries into back-end services related to the web page. The present techniques allow for not only better and more convenient visualization of web page related data, but can speed up development time, reducing both computing and developer resources.
US10963521B2
An approach for parsing and streaming contents of archive files is disclosed. In one embodiment, a client script executed by a web browser parses an archive file based on its archival format, without loading the entire archive file into memory. For example, the client may read only header fields of files inside a TAR format archive file to identify the files therein and their locations, while skipping contents of those files. Having identified files inside the archive file and their locations, the client further reads and processes files that are small enough to be handled by the web browser, while streaming to appropriate endpoints contents of other files such as those that are too large to be handled by the web browser. Such streaming may include slicing large files into sections the web browser can handle and attaching the sections to HTTP requests that are sent to appropriate endpoints.
US10963516B2
An electronic device includes a processor configured to perform: obtaining identification information of another electronic device; receiving an entered keyword that is a keyword entered by the user; searching including conducting a search to identify a standard keyword that is a keyword contained in an item name of a setting item of the other electronic device corresponding to the identification information, based on the keyword and first dictionary information related to the other electronic device, and conducting a search to identify a standard keyword of the electronic device based on the identified standard keyword of the other electronic device and a second dictionary information related to the electronic device; and presenting the user with a setting item of the electronic device containing the standard keyword of the electronic device identified at the searching.
US10963514B2
In one embodiment, a method includes accessing a mention table of entries that each have: (1) a string, (2) a count of a number of times the string is used in a corpus, and (3) a count of a number of times the string is linked to another document. The method also includes calculating, for each n-gram of a search query from a querying user, a link probability that represents the likelihood that the n-gram corresponds to an entity associated with a communication network. The method also includes identifying content objects that match the search query and ranking the content objects based at least in part on on the calculated link probability. The method also includes sending instructions to present the search results on a client system of the querying user.
US10963505B2
Devices, systems, and methods for automatically generating presentations, and for automatically generating a visual presentation that corresponds to a verbal meeting in which one or more topics were discussed. A method includes: obtaining an audio recording of a meeting; generating a transcript of the meeting from the audio recording; and automatically generating a visual presentation that corresponds to particular key elements of the meeting. The generated visual presentation includes automatically-generated slides or portions or chapters, which correspond to the agenda of the meeting, topics discussed and their summary, conclusions, decisions, action items, and other key elements of the meeting.
US10963500B2
A computer-implemented method includes receiving an input query including a comparative question referencing a plurality of entities. The comparative question includes a comparative term regarding a metric associated with the plurality of entities. The computer-implemented method includes generating a plurality of polar questions. Each of the plurality of polar questions seeks a polar answer to a comparison, along the metric and according to the comparative term, between a target entity of the plurality of entities and at least one second entity of the plurality of entities. The computer-implemented method includes determining confidence scores for the plurality of polar questions. The computer-implemented method includes identifying a particular polar question of the plurality of polar questions based on the confidence scores. The computer-implemented method includes outputting a response to the input query that identifies the target entity of the particular polar question as an answer to the input query.
US10963482B2
Content maintained in a first repository of a first installation (which can optionally be an on-premise installation) of a content management system, as well as metadata associated with the content, can be shared via an approach in which content items maintained in the first repository are synchronized with a copy of the content items maintained in a second repository of a second installation (which can optionally be a cloud-based installation). The first installation can be optionally firewall protected. The copy of the content items can be accessed by collaborative users both within and external to a firewall. Related systems, methods, products, etc. are described.
US10963478B2
Systems and methods for preemptive adjustments of connections in a server connection pool are provided. In example embodiments, a number of quality of service engines analyze server connection pool metrics data to generate instructions to increase or decrease the number of connections in a connection pool, preemptively, before shortages or surpluses of connections occur. Corrective engines can analyze performance of the quality of service engines and can, when necessary, instruct the quality of service engines to modify their prediction mechanisms.
US10963466B2
One embodiment provides a method, including: receiving, at an information handling device, query input from at least one user, wherein the query input comprises at least one entity; accessing, using a processor, contextual history data associated with the at least one user; determining, using the contextual history data, a contextual association for the at least one entity; and generating output associated with the contextual association for the at least one entity. Other aspects are described and claimed.
US10963464B2
Disclosed is a system, method, and computer program product that allows multiple partition schemes to be applied to a single object. Each scheme represents the same set of partitions, but the schemes may have different partition methods, different partition keys, and/or different partition bounds.
US10963460B2
Integrated circuits and methods relating to hardware acceleration include independent, programmable, and parallel processing units (PU) custom-adapted to process a data stream and aggregate the results to respond to a query. In an illustrative example, a data stream from a database may be divided into data blocks and allocated to a corresponding PU. Each data block may be processed by one of the PUs to generate results according to a predetermined instruction set. A concatenate unit may merge and concatenate a result of each data block together to generate an output result for the query. In some embodiments, very large database SQL queries, for example, may be accelerated by hardware PU/concatenate engines implemented in fixed ASIC or reconfigurable FPGA hardware circuitry.
US10963457B2
Various embodiments described herein provide for systems and methods for using a machine-learning model to rank job search results based on the similarity of the job title of each job search result and a job search query that produces the job search results. According to some embodiments, the machine-learning model comprises a word-embedding machine-learning model that maps a word to a vector.
US10963454B2
A method of deleting a plurality of records in a log-structured merge (LSM) tree based storage system during a merge operation that writes data from a memory storage to an extent, includes receiving a command to delete a plurality of records, inserting a range tombstone into the memory storage component of the storage system, the range tombstone indicating the plurality of records to be deleted, selecting one or more delayed deletion processes based at least in part on whether the plurality of records is contiguous beyond a predetermined threshold amount, modifying a manifest of the storage system based on the selected delayed deletion process, and performing the merge operation, wherein the plurality of records is not written to the extent during the flush operation based at least in part on the delayed deletion process.
US10963451B2
Methods and apparatus, including computer program products, are provided for a distributed database application system. In some implementations, there may be provided a method which may include receiving, by a transaction controller defining a data access layer of a database and via an application server associated with a client interface, a request to modify data stored in the database, the transaction controller comprising an application programming interface (API); establishing, by the API, a virtual connection between the transaction controller and the application server, and a physical connection between the transaction controller and the database; providing, by the API to the application sever via the virtual connection in response to the request, a representation of the data; and executing, by the application server, the request, the executing comprising modifying, via the virtual connection, the representation of the data without modifying the data stored in the database. Related systems, methods, and articles of manufacture are also disclosed.
US10963443B2
Automatic clustering of a database table is disclosed. A method for automatic clustering of a database table includes receiving an indication that a data modification task has been executed on a table and determining whether the table is sufficiently clustered. The method includes, in response to determining the table is not sufficiently clustered, selecting one or more micro-partitions of the table to be reclustered. The method includes assigning each of the one or more micro-partitions to an execution node to be reclustered.
US10963441B2
Creating and executing flow plans by performing at least the following: obtaining a run-time flow plan that comprises a trigger, a first operation, and a second operation, wherein the first operation precedes the second operation within the run-time flow plan and one or more input values of the second operation are linked to the first operation, determining whether one or more conditions of the trigger are met, execute the first operation based at least on the determination that the one or more conditions of the trigger are met, monitoring whether the second operation is ready for execution based at least on a determination that the one or more input values of a second action operation are ready, and executing the second action operation when the second action operation has been identified as ready for execution.
US10963437B2
A method, computer program product, and computing system for identifying a potential deduplication candidate and a related deduplication target; executing a comparison operation with respect to the potential deduplication candidate and the related deduplication target to generate a comparison result; and determining a level of similarity between the potential deduplication candidate and the related deduplication target by processing the comparison result.
US10963434B1
Embodiments include a search and match computing system configured to: access, from a third party computing system, a query regarding at least one entity; determine if the query is a structured query or an unstructured query; process the query with at least one of an application programming interface configured to receive structured queries or a second application programming interface receive unstructured queries; initiate a search and match application configured to execute queries on at least one of: a relational data scheme or a non-relational data scheme; receive search results from the at least one of: the relational data scheme or the non-relational data scheme; and process the received search results to generate an output data packet for access by the third party computing system.
US10963432B2
In one embodiment, a method includes generating a file list for an aggregation of files based on a file pattern descriptor for each file in the aggregation of files or a file name for each file in the aggregation of files. The method also includes opening a session with a storage system manager and writing data from each file in the file list to a storage tier of a storage system. The method further includes writing metadata and storage location information from each file in the file list to an index file, closing the index file, and closing the session with the storage system manager. Other systems, methods, and computer program products are described according to more embodiments.
US10963431B2
A method and system for storing an object in a distributed storage system are provided. An example system includes an object name identifier that receives a request to save an object having an initial object name within a file system space and determines, based on a set of regular expressions, whether the initial object name is a temporary object name. The example system also includes a converter that, when the initial object name is determined to be a temporary object name, transforms, based on the set of regular expressions, the initial object name into a permanent object name. The example system further includes a selector that applies a function to the permanent object name and selects, based on a result of the function applied to the permanent object name, a server of a plurality of servers. The object is sent to the selected server for storage.
US10963429B2
A computer-implemented method for content-agnostic referencing of a binary data file, the method comprising: determining a length of the binary data file, the length comprising the number of bits of the binary data file; for the determined length, generating all permutations of data of the determined length; locating an index within the generated permutations, wherein the index is the starting position of the binary data file within the generated permutations; and using the length and the index to indicate the binary data file.
US10963427B2
Systems and methods for improved data conversion and distribution are provided. A data subscription unit is configured to receive data and information from a plurality of data source devices. The data subscription unit is in communication with a virtual machine that includes backtesting utility configured to generate backtesting data using one or more statistical models and one or more non-statistical models. The backtesting utility may translate the backtesting results into one or more interactive visuals, and generate a graphical user interface (GUI) for displaying the backtesting results and the one or more interactive visuals on a user device. The backtesting utility may update one or more of the displayed backtesting results and the one or more interactive visuals without re-running the modeling steps.
US10963421B1
Embodiments herein describe a SoC that includes a mapper that identifies a destination ID for routing a transaction through a NoC. In one embodiment, the NoC includes ingress and egress logic blocks which permit hardware elements in the SoC to transmit and receive data using the NoC. In one embodiment, the ingress logic blocks can include the mapper that identifies a destination ID for each transaction. In one embodiment, the mapper can receive a destination ID from the hardware element that submitted the transaction to the ingress logic block. In this case, the mapper can bypass the address map by using the provided destination ID. If a destination ID is not provided, however, the mapper can use an address provided in the transaction to identify the destination ID.
US10963420B2
Systems and methods for providing hot spare nodes are disclosed. For example, one disclosed method for providing hot spare nodes comprises receiving an indication of a first quantity of unallocated nodes, the first quantity greater than or equal to one; receiving a command configured to create a hot spare pool and causing the first quantity of unallocated nodes to be configured as a first quantity of configured nodes; and generating the hot spare pool, the hot spare pool comprising the first quantity of configured nodes.
US10963409B2
An interconnect circuit, and method of operation of such an interconnect circuit, are provided. The interconnect circuitry has a first interface for coupling to a master device and a second interface for coupling to a slave device. Transactions are performed between the master device and the slave device, where each transaction comprises or more transfers, and each transfer comprises a request and a response. A first connection path between the first interface and the second interface is provided that comprises a first plurality of pipeline stages. The first connection path forms a default path for propagation of the requests and responses of the transfers. A second connection path is also provided between the first interface and the second interface that comprises a second plurality of pipeline stages, where the second plurality is less than the first plurality. Path selection circuitry is then used to determine presence of a fast path condition. In the presence of the fast path condition, the path selection circuitry causes at least one of the request and the response for one or more transfers to be propagated via the second connection path. This can significantly reduce the latency associated with the handling of transfers within the interconnect circuitry, and hence improves the overall performance of the interconnect circuitry.
US10963404B2
A DIMM is described. The DIMM includes circuitry to simultaneously transfer data of different ranks of memory chips on the DIMM over a same data bus during a same burst write sequence.
US10963400B2
An example operation may include one or more of identifying a smart contract, processing the smart contract to create a smart contract definition, determining whether the smart contract has been accepted by identified parties, when the smart contract has been accepted by the identified parties, generating a smart contract definition hash, and forwarding the smart contract definition hash to one or more blockchains.
US10963382B2
Table of contents (TOC) pointer cache entry having a pointer for a range of addresses. An address of a called routine and a pointer value of a pointer to a reference data structure to be entered into a reference data structure pointer cache are obtained. The reference data structure pointer cache includes a plurality of entries, and an entry of the plurality of entries includes a stored pointer value for an address range. A determination is made, based on the pointer value, whether an existing entry exists in the reference data structure pointer cache for the pointer value. Based on determining the existing entry exists, one of an address_from field of the existing entry or an address_to field of the existing entry is updated using the address of the called routine. The stored pointer value of the existing entry is usable to access the reference data structure for the address range defined by the address_from field and the address_to field.
US10963372B1
Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for performing autonomous self-healing of test scripts. One example process includes the actions of recording data that reflects user interactions with multiple user interface objects of a first user interface, and, for each interaction, generating a natural language statement that reflects an intent of the interaction with an associated user interface object. The process also includes storing the natural language statements in a test script, autonomously self-healing the test script for execution on a second user interface, and executing the autonomously self-healed test script on a second user interface.
US10963367B2
Recording a replay-able trace of execution of a multi-threaded process includes identifying a trace memory model that defines one or more orderable events that are to be ordered across a plurality of threads of the multi-threaded process. The plurality of threads are executed concurrently across one or more processing units of one or more processors. During execution of the plurality of threads, a separate replay-able trace is recorded for each thread independently. Recording includes, for each thread, recording initial state for the thread, recording at least one memory read performed by at least one processor instruction executed by the thread that takes memory as input, and recording a least one orderable event performed by the thread with a monotonically increasing number that orders the event among other orderable events across the plurality of threads.
US10963366B2
Systems, methods, and computer-readable media are described for generating fingerprints for regression tests that identify code paths taken during execution of the regression tests. Breakpoint values are assigned to breakpoints encountered during execution of a regression test and a fingerprint is generated based on the assigned breakpoint values and a code path taken during execution of the regression test. Various breakpoint value assignment/fingerprint generation algorithms are described herein that generate a fingerprint from which a corresponding code path taken can be reconstructed including which breakpoints are encountered, the number of times each such breakpoint is encountered, and the order in which the breakpoints are encountered.
US10963354B2
A control apparatus includes a synchronization state transmission/reception unit configured to transmit and receive a synchronization state to and from another control apparatus via a network, and a state data transmission/reception unit configured to transmit and receive state data to and from the another control apparatus via the network. Thus, the control apparatus can grasp the synchronization state of the another control apparatus. Further, even when the control apparatus is restarted due to a failure, the control apparatus receives state data from another control apparatus that has been synchronized with the control apparatus and is in operation so that the control apparatus can recover without stopping the entire system.
US10963353B2
The present disclosure relates to systems and methods for backing up a distributed database provided as a database instance across servers within a first geographic region. In one example, such a system may include at least one processor configured to: generate and transmit a command to duplicate the distributed database in object databases on first region servers; generate and transmit a command to duplicate the object databases on servers in at least a second geographic region independent from servers in the first region; and, when an error is detected with at least one server within the first region: generate and transmit a command to initiate a new distributed database on second region servers, generate and transmit a command to populate the new distributed database using the object databases on second region servers, and generate and transmit a command to re-route traffic from the distributed database to the new distributed database.
US10963351B2
A data backup system can be implemented in a data storage enclosure that houses a backup controller. The backup controller may be connected to a storage media and a backup media via a switch. The backup media can be resassigned from an unavailable condition to an available condition by the backup controller in response to predicted degradation in the storage media. The backup media may be connected to a root complex of the backup controller via a backup partition and selection feature.
US10963343B1
A computing device includes an interface configured to interface and communicate with a dispersed storage network (DSN), a memory that stores operational instructions, and processing circuitry. The computing device issues a set of write requests to a first storage unit (SU) set based on a set of encoded data slices (EDSs) associated with a data object to be stored therein. When a write threshold number and fewer than all of the set of EDSs have been successfully stored, the computing device determines to store temporarily within a second SU set remaining EDS(s) that has not been successfully stored within the first SUs set and facilitates temporary storage thereof within the second SU set. Upon recovery of the EDS(s) from the temporary storage within the second SU set, the computing device issues additional write request(s) to the first SU set based on the EDS(s).
US10963338B1
A flash memory system may include a flash memory and a circuit for performing operations of the flash memory. The circuit may be configured to estimate slope information of a plurality of threshold voltage samples based on soft decoding errors in connection with a first read operation on the flash memory. The circuit may be further configured to generate estimated soft information based on the estimated slope information. The circuit may be further configured to decode a result of a second read operation on the flash memory based on the estimated soft information.
US10963324B2
Methods and systems for predictive execution of microservices. Execution of an application program interface request may entail execution of a plurality of microservices in a series. An events message may be transmitted to an events queue corresponding to the API request. The message may be based on an operating status of one or more microservices. Based on the events message, one or more of the microservices in the series may be configured to perform early execution steps before receiving an internal message from a previous microservice in the series. Such early execution steps may comprise authenticating a user and/or a microservice, retrieving and/or caching data, or the like. The one or more of the microservices may perform subsequent execution steps after receiving an internal message from a previous microservice in the series.
US10963322B2
The present disclosure relates to the technical field of computers, and particularly relates to a data sharing method and an apparatus, and an electronic device. The method is applied to a mobile terminal. A display screen of the mobile terminal is a bendable display screen. The method includes determining a first application and a second application in the display screen; and in a case that it is detected that the display screen is bent, sharing the first data information of the first application to the second application.
US10963320B1
For presenting a hygiene warning, a processor detects satisfying a risk policy. The risk policy is satisfied in response to a touch of an electronic device by a user. The processor presents a hygiene warning on the electronic device in response to satisfying the risk policy.
US10963317B2
A visual software development system in which a user can graphically build a design or software solution without having to write software code includes one or more adapters that interrogate interfaces of the software platform that a software system or systems is built in accordance with and generate descriptions that the user can then incorporate into the design. The software systems can be of disparate technology platforms, an adapter provided that suits each platform. The descriptions can be represented graphically for the user with icons in an integrated development environment (IDE), and the user can build the design by dragging or otherwise selecting descriptions to be used and connecting them together to graphically represent the flow of information or communication of events among the descriptions.
US10963316B2
A cloud system for an application to be built and executed is provided, the cloud system including a microservice platform including one or more application programing interfaces (APIs) and one or more service modules, wherein each API is configured for the application to access services of one or more services modules of the cloud system and wherein the one or more service modules are in communication with the microservice platform and the application using the APIs, each of the service modules being configured to provide at least one service to the application, when being called using at least one API pertaining to each of the service modules, and the microservice platform being configured to allow an app control access to each of the service modules using a user account of the user.
US10963299B2
A processor core is configured to execute a parent task that is described by a data structure stored in a memory. A coprocessor is configured to dispatch a child task to the at least one processor core in response to the coprocessor receiving a request from the parent task concurrently with the parent task executing on the at least one processor core. In some cases, the parent task registers the child task in a task pool and the child task is a future task that is configured to monitor a completion object and enqueue another task associated with the future task in response to detecting the completion object. The future task is configured to self-enqueue by adding a continuation future task to a continuation queue for subsequent execution in response to the future task failing to detect the completion object.
US10963295B2
A method and system for processing data are disclosed. A processor, in response to executing a software program, may write an entry in a work queue. The entry may include an operation, and a location of data stored in an input buffer, and a location in an output buffer to write processed data. The processor may also generate a notification that at least one entry in the work queue is ready to be processed. The data transformation unit may assign the entry to a data transformation circuit, and retrieve the data from the input buffer using the location. The data transformation unit may also perform to the operation on the retrieved data to generate updated data, generate a completion message in response to completion of the operation, and store the updated data in an output buffer. An interface unit may relay transactions between the processor and the data transformation unit.
US10963294B2
Methods, computer program products, and systems are presented. The methods include, for instance: input data from the source environment, including application hosting data of each server in the source environment and one or more cloud type of the source environment. Candidate cloud types for target platform are listed and servers of the source environment are screened for eligibility for the migration. The target platform is selected by applying preconfigured selection rules on the application hosting data of each eligible server in the source environment. Migration recommendations for each eligible server in the source environment, including selected cloud type corresponding to the target platform, are produced.
US10963292B2
Techniques to manage virtual classes for statistical tests are described. An apparatus may comprise a simulated data component to generate simulated data for a statistical test, statistics of the statistical test based on parameter vectors to follow a probability distribution, a statistic simulator component to simulate statistics for the parameter vectors from the simulated data with a distributed computing system comprising multiple nodes each having one or more processors capable of executing multiple threads, the simulation to occur by distribution of portions of the simulated data across the multiple nodes of the distributed computing system, and a distributed control engine to control task execution on the distributed portions of the simulated data on each node of the distributed computing system with a virtual software class arranged to coordinate task and sub-task operations across the nodes of the distributed computing system. Other embodiments are described and claimed.
US10963290B2
A hypervisor exchange, e.g., an upgrade, can include consolidating resident virtual machines into a single host virtual machine, exchanging an old hypervisor with a new (upgraded) hypervisor, and disassociating the virtual resident virtual machines by migrating them to the new hypervisor. The consolidating can involve migrating the resident virtual machines from the old hypervisor to a guest hypervisor on the host virtual machine. The exchange can involve: 1) suspending the host virtual machine before the exchange; and 2) resuming the host virtual machine after the exchange; or migrating the host virtual machine from a partition including the old hypervisor to a partition hosting the new hypervisor. Either way, an exchange (upgrade) is achieve without requiring a bandwidth consuming migration over a network to a standby machine.
US10963286B2
A live migration method for a virtual machine passthrough device, includes: performing a register state synchronization method by calling a register state synchronization interface; cancelling a passthrough state of the source virtual machine passthrough device, and migrating the source virtual machine passthrough device to the target virtual machine by iteratively executing multiple rounds of a synchronization operation as following: performing the register state synchronization method by calling the register state synchronization interface to capture a read/write operation on a register of the source virtual machine passthrough device in a migration process, and executing the captured read/write operation on a register of a target virtual machine passthrough device; and performing a DMA dirty page synchronization method by calling a configured DMA dirty page transmission interface, to write data corresponding to a DMA dirty page identified by the source virtual machine passthrough device into a memory of the target virtual machine.
US10963282B2
A first virtualization control mode to be used for configuring one or more compute instances is determined. Based at least partly on the mode, preparatory configuration operations for launching a compute instance are initiated. The operations include transferring at least a portion of a machine image to a storage device accessible from a host, and initialization of a virtual network interface. A compute instance is instantiated using the machine image at the host. The compute instance is a thread of an intermediary process launched by an administrative agent at the host in response to a launch request.
US10963279B2
Embodiments are directed to a computer implemented method of controlling a host computing device connected to at least one subordinate computing device. The method includes configuring a host virtual machine manager (VMM) of the host computing device to perform a method that includes deploying an instance of a subordinate virtual machine (VM) on the subordinate computing device, and deploying another instance of the subordinate VM on the host computing device. The method further includes administering features or functions of the instance of the subordinate VM on the subordinate computing device, and administering features or functions of the another instance of the subordinate VM on the host computing device.
US10963278B2
The topology and operation of virtual entities and sub-entities of a data center may be monitored and correlated to services and customers supported by the data center.
US10963250B2
The execution of time intensive instructions can lead to critical events being responded to late or not being responded to at all. An information processing apparatus comprises processing circuitry (60) for executing instructions comprising one or more time intensive instructions and exception generating circuitry (100) for generating at least one exception for the processing circuitry. The processing circuitry maintains a control value (20) for indicating whether or not the time intensive instructions can be executed. When a time intensive instruction is encountered, if the control value indicates that time intensive instructions cannot be executed then a first exception triggers the processing circuitry to suppress execution of the time intensive instruction. Alternatively, if the control value indicates that time intensive instructions can be executed, then the time intensive instruction is executed.
US10963217B2
One embodiment provides a method, including: detecting, at an information handling device, voice command input; determining, using a processor, an orientation state of the information handling device, wherein the orientation state is one of: a closed state or an open state; and displaying, responsive to determining that the orientation state is associated with the closed state and on an auxiliary display of the information handling device, a notification acknowledging receipt of the voice command input. Other aspects are described and claimed.
US10963215B2
A system is described for maintaining synchrony of operations among a plurality of devices that have independent clocking arrangements. The system includes a task distribution device that distributes tasks to a synchrony group comprising a plurality of devices that are to perform the tasks distributed by the task distribution device in synchrony. The task distribution device distributes each task to the members of the synchrony group over a network. Each task is associated with a time stamp that indicates a time, relative to a clock maintained by the task distribution device, at which the members of the synchrony group are to execute the task. Each member of the synchrony group periodically obtains from the task distribution device an indication of the current time indicated by its clock, determines a time differential between the task distribution device's clock and its respective clock and determines therefrom a time at which, according to its respective clock, the time stamp indicates that it is to execute the task.
US10963210B2
Technology for ad hoc distributed real-time communication for electronic gaming machines (EGMs) in a gaming system is disclosed. An EGM receives, via a communication network, a streamed audio data having at least one audio file from a broadcast device that was transmitted to the broadcast device as an audio signal. The EGM processes the streamed audio data to enable speakers on the EGM to broadcast the streamed audio data. The EGM broadcasts the streamed audio data using speakers on the EGM. The speakers on the EGMs are part of a distributed speaker system associated with the broadcast device in the gaming system. The EGM dynamically adjusts a volume of a plurality of audio sounds associated with a wagering game funded via the payment accepter on the EGM during the broadcasting of the streamed audio data.
US10963205B2
A method, system and computer program product for generating augmented reality in a state room includes establishing a communicative link with different computing devices disposed within separate state rooms, with each of the state rooms including a display positioned at a ceiling, a display positioned on a wall and a display embedded in a floor. The method further includes, for each of the state rooms, assigning a theme of an exterior environment, directing the retrieval from fixed storage of exterior environmental imagery, and directing display of an atmospheric portion of the exterior environmental imagery on the display positioned at the ceiling, directing display of a horizon portion of the exterior environmental imagery on the display positioned on the wall, and directing display of a surface portion of the exterior environmental imagery on the display embedded in the floor.
US10963204B2
A foldable display is disclosed. In one aspect, the foldable display includes a first display unit located on a front surface of the foldable display, a second display unit located on a first side surface of the foldable display, and a third display unit located on a second side surface of the foldable display. The foldable display includes a first configuration in which the first to third display units are exposed and a second configuration in which the first display unit is folded and the second and third display units are exposed. The second and third display units are configured to form a fourth display unit inclined with respect to the folded first display unit in the second configuration of the foldable display.
US10963197B2
An image processing apparatus which is able to prevent a decrease in general versatility of an expansion application. The image processing apparatus has an operating system and the expansion application for expanding functions. When a USB device is connected to the image processing apparatus, a USB I/F communicates with the connected USB device. The connected USB device is controlled using the operating system or the expansion application. It is determined whether or not the connected USB device is a predetermined operating device that operates the image processing apparatus. When the connected USB device is the predetermined operating device, the connected USB device is controlled using the operating system.
US10963194B2
An information processing apparatus includes a receiver, a sender, and a limiter. The receiver receives a viewing request to view an attribute of a print job from an operator. The print job is a job which allows plural operators to make a request to view an attribute. The sender sends the attribute of the print job in accordance with the viewing request. The limiter imposes limitations, when a changing request to change an attribute of the print job is received from the operator, so that operators other than the operator having made the changing request will be unable at least to change the attribute of the print job and to generate an image concerning the print job.
US10963189B1
Coalescing write operations in a cloud-based storage system including receiving, from a storage controller application of the cloud-based storage system, a first plurality of write operations, wherein each of the first plurality of write operations comprises a respective write to a storage volume; coalescing the first plurality of write operations into a plurality of coalesced write operations, wherein each of the coalesced write operations are configured to effect two or more of the first plurality of write operations; and performing the plurality of coalesced write operations on the storage volume.
US10963186B2
Implementations disclosed herein provide a method of receiving a command from a host, the command providing a starting logical block address (LBA) and a length of the command, generating a multiplicity bit mask (MBM) for the command in response to receiving a command from a host, and storing the MBM to an MBM table in a row corresponding to a stream that the command is part of.
US10963178B2
A repetitive data processing method for a solid state drive is provided. The solid state drive includes a non-volatile memory. The repetitive data processing method includes the following steps. Firstly, a write data is received. The write data contains plural codewords. Then, an encoding operation is performed on the plural codewords sequentially, thereby generating plural error correction codes sequentially. If at least two consecutive error correction codes of the plural error correction codes are identical to a first error correction code, the solid state drive confirms that the write data contains a repetitive data and enabling a repetitive data management mechanism.
US10963174B2
Exemplary memory storage system and methods for distributive storage of data. Exemplary embodiments provide methods and systems including a plurality of nodes where each node has memory for storing data. The nodes may be configured to receive data and store the data at the node if the data is intended for the node or pass the data to another node if the data is not intended for the node. The nodes may manage memory and allocation of specific memory addresses locally, while the system of nodes manages memory based on a naming convention to indicate the nodes and not the individual memory addresses within a node.
US10963169B2
An integrated circuit device that includes a secure or protected memory component is herein disclosed and enabled. The integrated circuit device may be a wireless communication device or a smart card or a USB device. Additionally, the integrated circuit device may be part of, or included in, a computing device or a mobile device. The integrated circuit device includes a protected memory section for storing protected data that is not accessible by a user at the protected memory section, but is accessible by a memory controller included in the integrated circuit device. The memory controller accesses the protected data with a combination of security operations that may include cryptography. The integrated circuit device may further include a wireless component for establishing a wireless connection with wireless computing devices or readers for wirelessly transmitting the protected data accessed by the memory controller to the wireless computing devices or the readers.
US10963168B2
Methods, systems, and devices related to a memory system or scheme that includes a first memory device configured for low-energy access operations and a second memory device configured for storing high-density information and operations of the same are described. The memory system may include an array configured for high-density information and may interface with a host via a controller and a cache or another array of a relatively fast memory type. The memory system may support signals communicated according to one or several modulation schemes, including a modulation scheme or schemes that employ two, three, or more voltage levels (e.g., NRZ, PAM4). The memory system may include, e.g., separate channels configured to communicate using different modulation schemes between a host and between memory arrays or memory types within the memory system.
US10963162B2
The disclosure provides an approach for performing a write to a storage system, the write having reduced latency due to parallelism of sub-steps of the write, and due to calculating a partial rather than a full checksum. The mechanism of the write has low file corruption of files on the storage system, due to journaling of the checksum.
US10963161B2
A storage apparatus and its control method capable of reducing load and necessary memory capacity on the side of the apparatus, which are required for management, are proposed. A role of a storage administrator, whose set of storage resources which are management objects is included in a set of storage resources which are management objects of one storage administrator or a union of sets of storage resources which are management objects of a plurality of storage administrators, is set as a first role; and in response to the first request from the management terminal used by a storage administrator who is assigned the role other than the first role, a performance information collection unit is requested to collect performance information of necessary storage resources, acquires such performance information, and the acquired performance information is transmitted to the relevant management terminal and is also stored and retained; and wherein regarding the management terminal used by the storage administrator who is determined to be assigned the first role, an instruction is issued to stop the periodic polling and the performance information is push-distributed to the relevant management terminal at a stage where the performance information of all the storage resources which are the management objects of the relevant storage administrator is acquired.
US10963159B2
One embodiment provides a method including: detecting, using a processor, user input to a surface, the user input being associated with a virtual interface; identifying, within the user input, a palm input pattern; and adjusting the virtual interface based on at least one aspect of the identified palm pattern. Other aspects are described and claimed.
US10963157B2
An ordering system includes a video display unit operable for displaying contents of a plurality of selectable menu screens and an input pad operable for capturing at least one gesture of a user in at least one direction over the input pad. The gestures are used to select from a plurality of selectable menu screens for display by the video display unit.
US10963152B2
Techniques for map interface interaction are described. One example method includes receiving user input specifying a map search operation, the map search operation including a first location and a distance determining point each specifying a location in a set of map data representing a physical area; determining a selected distance between the first location and the distance determining point, wherein the selected distance represents a physical distance between the physical locations represented by the first location and the distance determining point; determining a demarcated range based on the first location and the selected distance, the demarcated range representing a subset of the physical area; and displaying one or more target objects in the demarcated range as a search result set, each target object associated with a physical location in the subset of the physical area represented by the demarcated range.
US10963140B2
A method and system for presentation of an augmented reality experience is disclosed. The method for producing the augmented reality viewing experience comprises viewing real-world objects such as 2D and 3D works of art or other objects through a portable device such as a smart phone, tablet or augmented reality goggles. An augmented reality application controlling the augmented reality experience prompts the viewer to begin the experience. Both three-dimensional and two-dimensional multi-media presentations, such as an animation telling a story related to the real-world object are displayed on the portable device in one or more virtual screens anchored to the real-world object.
US10963138B1
A system for implementing a tool that allows users to test a webpage. The system may include a computing device that uses the tool to parse a request transmitted in response to, for example, a selection to load the webpage. The tool may also generate a user interface comprising variables of the request. The variables may be displayed for selection by a user. For each selected variable, the computing device may generate a column within a table. The table may include values for each selected variable. The computing device may also generate another table with values for corresponding variables. Further, the computing device may compare values to execute regression testing. The computing device may allow a user to select criteria for certain variables to generate rules and apply rules against requests. The computing device may also allow users to export data to be analyzed and reported in another tool.
US10963122B2
A system and method for a communication analytics system comprises a communication device and a system analyzer and the system analyzer is configured to continuously monitor electronic communications over the one or more communication devices and identify one or more communication activities associated with the electronic communications. The system analyzer is further configured to translate the one or more communication activities into communication data, store the communication data in a database and identify one or more correlations from the communication data.
US10963118B2
An electrode structure and a touch panel including the electrode structure are provided. The electrode structure includes a membrane layer and a metallic nanowires layer having metallic nanowires. A first portion of the metallic nanowires layer is covered by the membrane layer, and a second portion of the metallic nanowires layer is exposed out of the membrane layer. The membrane layer is made of a copolymer formed by mixing two or more materials having different functional groups.
US10963115B2
A position indicator can visibly form handwriting, and can erase the handwriting and simultaneously erase corresponding electronic data. The position indicator includes a casing including a first indicating portion and a second indicating portion. The first indicating portion includes a core body capable of visually forming handwriting corresponding to a writing operation of the position indicator, and a first circuit element that enables a position indicated on a sensor surface to be detected by a sensor. The second indicating portion includes an erasing member that projects from the casing, which visually erases the handwriting formed by the core body, and a second circuit element that enables a position indicated on the sensor surface to be detected by the sensor. The second indicating portion includes a holder that holds the erasing member with respect to the casing, and the holder includes a member that contributes to an interaction with the sensor.
US10963113B2
A touch panel and a fabrication method thereof are provided. The touch panel includes a plurality of touch electrodes and at least one organic, transparent, electrically conductive layer. The touch electrodes include a plurality of touch units. The at least one organic, transparent, electrically conductive layer covers at least one surface of the touch units. Therefore, the touch electrodes of the touch panel have good electrical conductivity and flexibility.
US10963102B2
System and method for touch sensing and LED control for a touch screen. For example, the system comprises: a control chip including m first multiplexing terminals and n second multiplexing terminals, wherein m and n are integers greater than 2; k LEDs, wherein a rth LED of the k LEDs is connected to an ith first multiplexing terminal of the m first multiplexing terminals and to a jth second multiplexing terminal of the n second multiplexing terminals; wherein: the rth LED is in between the ith first multiplexing terminal and the jth second multiplexing terminal; r is an integer greater than 0 and less than or equal to k; i is an integer greater than 0 and less than or equal to m; j is an integer greater than 0 and less than or equal to n; and (m+n) touch-sensing capacitors.
US10963099B2
Embodiments of the present disclosure provide a noise reduction method. The noise reduction method is applied to the touch display apparatus on which several touch detection nodes are disposed, and the noise reduction method includes: obtaining noise data of each touch detection node (101); obtaining characteristic values based on the noise data (102); performing fitting processing on noise data of a target node and the characteristic values, to obtain a fitting function in which the characteristic values are used as an independent variable and the noise data of the target node is used as a dependent variable (103), where a target node is a touch detection node to be noise reduced; substituting the characteristic values into the fitting function, to obtain fitting data corresponding to the characteristic values (104); and using differences between the fitting data and the noise data of the target node as noise reduced data (105).
US10963094B2
A touch-and-display device operated with an active stylus is provided. The touch-and-display device includes a touch-and-display panel and a circuit. In a touch sensing period, the circuit transmits a touch sensing signal to multiple sensing electrodes and determines at least one touched electrode and at least one untouched electrode of the sensing electrodes based on capacitance of the sensing electrodes. In a stylus sensing period, the circuit transmits an uplink signal to the untouched electrodes and applies a direct current voltage to the touched electrodes. The uplink signal is a time-varying signal.
US10963092B2
A channel driver circuit includes a differential module and a driver module. In some examples, the channel driver circuit also includes a sigma-delta module. The differential module receives, via a single node of a load, a channel driving signal that is provided to the load at the single node (e.g., that is based on an electrical characteristic of the load) and generates an analog error signal that is based on the channel driving signal and a reference signal. The driver module is coupled to the differential module and generates the channel driving signal based on the analog error signal or a digital error signal corresponding to the analog error signal and transmits the channel driving signal via the single node to the load. The channel driver circuit simultaneously transmits the channel driving signal to the load at the single node and senses the channel driving signal at the single node.
US10963080B2
A display device includes: a display panel; an input sensing panel; a display flexible circuit board to control the display panel having an input sensing driving circuit electrically connected to the input sensing panel, the display flexible circuit board being connected to the display panel; and a first pressure sensor disposed adjacent to and extending along a first edge of the display panel, wherein the first pressure sensor is electrically connected to the input sensing driving circuit of the display flexible circuit board.
US10963075B2
An input detecting device includes: an input receiver configured to receive position input; a position detector included in the input receiver and configured to detect at least a position of the position input; a rotary portion rotatably attached to the input receiver and configured to move between a standby position spaced apart from the input receiver and an advanced position closer than the standby position to the input receiver; a rotation detectable portion configured to be rotated relative to the input receiver together with the rotary portion and whose position is detectable by the position detector; and a push detectable portion whose position is detectable by the position detector when the rotary portion is positioned at one of the standby position and the advanced position.
US10963074B2
An input display device includes a display unit that displays a screen for handwriting input on an input screen including a plurality of input fields, a stroke data processing unit that groups stroke data which is input to a capture screen by handwriting into stroke data representing characters to generate grouped stroke data as grouping stroke data, a character recognition unit that conducts character recognition on the grouping stroke data to convert the grouping stroke data into at least one recognized character, and a control processing unit that displays the at least one recognized character at the plurality of input fields of the input screen correlated with positions, at which handwriting input was performed, in the screen for handwriting input.
US10963066B2
Disclosed are a keyboard input system and a keyboard input method using finger gesture recognition. The keyboard input system includes: a virtual keyboard display unit configured to overlap and display a virtual keyboard having keys arranged on an image obtained by an image capturing unit; and a virtual keyboard input unit configured to output a key of the virtual keyboard based on a user's finger gesture recognized in the image. The virtual keyboard input unit includes: a finger recognition unit configured to recognize a finger gesture of the user in the image; a click gesture determination unit configured to determine whether the finger gesture corresponds to a set click gesture; and a key output unit configured to determine a key overlapping with a set finger position of the user when the click gesture occurs. The click gesture includes an interaction between at least two fingers of the user.
US10963061B2
Systems, devices, and methods for providing limited duration haptic effects are disclosed. Systems for providing limited duration haptic effects include sensors, control circuits, and vibration actuators configured closed loop feedback control of the vibration actuators. The sensors are configured to measure motion characteristics induced by the vibration actuators. The control circuits are configured to receive motion characteristic information from the sensors and provide closed loop feedback control of the vibration actuators. Closed loop feedback control permits precise control of vibration actuator output during limited duration haptic effects.
US10963057B2
Provided is a haptic feedback button, which includes: a substrate; a lower electrode provided on an upper portion of the substrate, and formed by patterning a ground electrode and a touch sensing electrode; an upper electrode, provided above the lower electrode with an interval from the lower electrode, to which a driving voltage is applied; and a cover provided on an upper portion of the upper electrode, wherein a piezoelectric polymer is provided on an upper portion of the lower electrode or a lower portion of the upper electrode so that fretting vibration may be generated when the piezoelectric polymer is in close contact with the lower electrode or the upper electrode that are disposed to face each other.
US10963052B2
Provided are a touch sensitive element and a display device including the same. According to the exemplary embodiment of the present disclosure, a touch sensitive element, includes: an electroactive layer which is formed of electroactive polymer (EAP); an electrode which is disposed on at least one surface of the electroactive layer; and a hard coating layer which is disposed on the electroactive layer and the electrode and has a negative coefficient of thermal expansion (CTE). Therefore, vibration effect in a vertical direction is maximized and impact resistance may be improved.
US10963044B2
Methods, apparatus, systems are disclosed for altering displayed content on a display device responsive to a user's proximity. In accord with one example, a computing system includes a memory, a sensor to collect data representative of a viewing distance between a display and a user of the display, and a scaler to adjust a size of at least one object displayed by the display based on the viewing distance from the display.
US10963041B2
A system comprising: a camera configured to capture one or more images of a user's hand; and a computer configured to: receive the one or more captured images, apply a mapping function to the received one or more images, thereby yielding one or more coordinates associated with at least one feature of the user's hand, wherein the mapping function is derived from a set of labeled images that are produced by applying a machine learning algorithm to training data which comprises images of a trainer's hand, wherein the images are labeled with coordinates obtained from multiple magnetic sensors attached to the trainer's hand.
US10963033B2
A system for conserving power in an electronic device, in some embodiments, comprises: a battery to supply power to the electronic device; and a fuel gauge coupled to the battery and capable of operating in any of a plurality of power modes, wherein the fuel gauge selects its own power mode based on a repeated, variable-frequency sampling of a voltage provided by said battery.
US10963032B2
A power supply and a method to provide power to a load via a power delivery network are presented. The power delivery network adds a pole and/or zero to a transfer function of the power supply. The power supply has a feedback unit to sense a load voltage at the load and to provide a feedback voltage which is indicative of the load voltage. The power supply has an input amplifier provides an error voltage based on the feedback voltage. The power supply has a power converter to provide power to the power delivery network depending on the error voltage. The power supply has an equalization unit to add a zero and/or a pole to the transfer function of the power supply, such that the pole and/or zero of the power delivery network is partially compensated. The equalization unit is located between an input amplifier and a power converter.
US10963026B2
A digital integrated circuit comprising may include a digital sensor circuit that converts binary bit patterns of wires in a sub-circuit over a given time into a single integer value that represents the total activity of a sub-circuit, and a digital data processing circuit that receives multiple activity integer values from multiple digital sensors in multiple sub-circuits and logically combines the values or uses a lookup table to output a single integer value that represents the total activity of a larger sub-circuit.
US10963014B1
A flexible display device is disclosed. The flexible display device includes a first body, a second body, a roller, and a flexible display. The flexible display includes a first region forming a plane surface and a second region of which a portion forms a curved surface around the roller. A plurality of engagement protrusions are formed on an outer circumferential surface of the roller, and a plurality of support bars are coupled to an inner surface of the second region. The engagement protrusions engage the support bars. When the second body moves relative to the first body, the roller rotates with the engagement protrusions engaging the support bars, and the second region is uniformly deformed and moves.
US10963012B2
A display device may include a first support member and a second support member arranged in a first direction, a plurality of joint units provided between the first and second support members, a hinge member providing two rotating axes, which are connected to bottom surfaces of the joint units and bottom surfaces of the first and second support members and extend in the second direction, to be adjacent to facing sides of the first and second support members, a protection film provided on the first and second support members and the joint units, a flexible display panel provided on the protection film, and an adhesive member configured to attach the protection film to the display panel and to define a cavity in a region, which is located between the display panel and the protection film and is overlapped with the joint units.
US10963009B2
The present invention provides a head-mounted display comprising: a body part including a display part for displaying an image; a fixing part, which surrounds a head part to allow the body part to be fixed to the head part and includes a front support part, a rear support part having an adjustable length, and a connecting part; a connecting frame that connects the body part to the fixing part to allow the body part to rotate and move with reference to the fixing part; and a band part, which has opposite ends fixed to the fixing part and is formed to elastically surround the head part, together with the front support part.
US10963007B2
Methods and systems for presenting a user interface that includes a virtual keyboard are provided. More particularly, a virtual keyboard can be presented using one or more touch screens included in a multiple display device. The content of the virtual keyboard can be controlled in response to user input. Configurable portions of the virtual keyboard include selectable rows of virtual keys. In addition, whether selectable rows of virtual keys and/or a suggestion bar is displayed together with the standard character and control keys of the virtual keyboard can be determined in response to context or user input.
US10963001B1
Disclosed are techniques regarding aspects of implementing client configurable logic within a computer system. The computer system can be a cloud infrastructure. The techniques can include associating clock information with the client configurable logic for various purposes.
US10962992B2
An apparatus with two anchors including a housing, a movable element, and a rotary element is provided. The housing includes a first expansion unit, a second expansion unit, and a linkage. First alignment structures are disposed in the movable element and anti-rotation structures are disposed in the linkage. When the movable element and the rotary element enter the housing from two ends and are coupled along an axis, the movable element and the rotary element can approach each other to expand the first expansion unit and the second expansion unit to form two anchors. The apparatus with two anchors secures a sensor in a variety of environments such as walls or machines. When the apparatus with two anchors fixes a sensor in a hole of a stamping machine, the impact force does not cause stress concentration on the sensor so as to improve the reliability of the sensor.
US10962980B2
A vehicle system comprises a hitch ball mounted on a vehicle. The system further comprises a plurality of sensor devices comprising an ultrasonic sensor and an image sensor. A controller is configured to process image data from the image sensor identifying a coupler position of a trailer. The controller is further configured to process ultrasonic data from the ultrasonic sensor identifying a proximity of the trailer. Based on the proximity of the trailer, the system is configured to identify the trailer in a detection range of the image sensor.
US10962972B2
A safety architecture system includes, in one aspect, a first stage comprising a primary unit that generates primary data for performing normal system functionality; a secondary unit that generates secondary data for performing alternative system functionality; a primary safety gate coupled to the primary unit, with the primary safety gate providing the primary data as a primary output responsive to a determination of validity of the primary data; and a secondary safety gate coupled to the secondary unit, with the secondary safety gate providing the secondary data as a secondary output responsive to a determination of validity of the secondary data. The system also includes an output selector that is coupled to both the primary safety gate and the secondary safety gate of the first stage, with the output selector providing a system output responsive to the determinations of the validities of the primary data and the secondary data.
US10962971B2
A autonomous robotic golf caddy which is capable of following a portable receiver at a pre-determined distance, and which is capable of sensing a potential impending collision with an object in its path and stop prior to said potential impending collision.
US10962955B2
A system includes sensors for monitoring pressure, flow, pump speed, temperature, and/or other signals at the output of a main hydraulic pump, and a processing system executes one or more methods for identification of hydraulic system events, from the signals, corresponding to state changes and performance of the system and/or its subcomponents. Event identification is performed with classification and/or other machine learning algorithms, with generation of novel training data sets. The sensor(s) can also be used to determine power consumption information about the system and/or its subcomponents. The system processes event-associated outputs for execution of actions for improving system performance, along with other downstream applications.
US10962954B2
A manufacturing process system comprises any number of assembly stations and test stations, a model unit, and any number of final products is provided. Any of a sample test method and the statistical distribution monitoring method performed by the model unit is configured to monitor the model quality after it is deployed and reduce potential unnecessary costs, such as warranty claim costs as a result of sending bad units to the customers, and rework costs as a result of predicting a good part as bad and wasting additional testing efforts on the bad parts. Further, both methods are configured to maximize the probability of detecting hazardous issues, while having control of the false alarm rate.
US10962947B2
A device, which is intended to remotely control at least one operation of at least one appliance, includes an input interface module for receiving inputs from a user, and a communication module for sending to a management platform data which represent a control instruction activated by the user. Such a device can have universal remote control functionality, with an additional contextualization functionality.
US10962938B2
Building management system with self-optimizing control, performance monitoring, and fault detection
A building management system includes building equipment configured to operate in accordance with an input to alter a variable state or condition of a building, a feedback controller configured to generate the input as a function of a measured state of the building equipment, and an analytics circuit. The analytics circuit is configured to obtain and store a dataset comprising the measured state and the input for a plurality of time steps, determine, based on at least a portion of the dataset, a self-optimizing control function that defines a self-optimizing control variable as a function of the measured state, calculate a value of the self-optimizing control variable using the self-optimizing control function and the measured state, monitor the value of the self-optimizing control variable over time, and generate an indication of performance of the building equipment relative to optimal performance based on the value of the self-optimizing control variable.
US10962932B2
A time measurement device for calculating a time from an input of a first trigger signal to an input of a second trigger signal as a measured time includes a start gate configured to generate a start signal, a stop gate configured to generate a stop signal, a TDC circuit configured to generate a digital code corresponding to the time from an input of a start signal to an input of a stop signal, a delay circuit configured to delay an input of at least one of the start signal and the stop signal to the TDC circuit by a predetermined delay time, and a control unit configured to calculate a measured time on the basis of a plurality of digital codes generated by the TDC circuit, wherein the time delay unit selects at least two delay times.
US10962929B2
A device includes a sensor, a coherent infrared illumination source and optics to direct an infrared reference beam to the sensor. The sensor is positioned to capture an image of an interference signal generated by an interference of the infrared reference beam and a wavelength-shifted exit signal. The wavelength-shifted exit signal propagates through the optics before interfering with the infrared reference beam.
US10962918B2
An image forming apparatus includes a photosensitive unit provided with a discharge opening, a pair of frame members, a developer receiving portion connected to the discharge opening, and a developer feeding portion connected to the developer receiving portion. The developer receiving portion is provided inside a space sandwiched between the frame members. The developer feeding portion is provided outside the space.
US10962917B2
An image heating device has a paper-passing heating region in which a recording material passes through at least a part of a heating region and a non-paper-passing heating region in which the recording material does not pass through the heating region, and changes a heating amount applied to a fixing member in the non-paper-passing heating region in accordance with a longitudinal distance between a boundary position between the paper-passing heating region and the non-paper-passing heating region in the longitudinal direction and the boundary position side end portion of the recording material in the paper-passing heating region.
US10962907B1
An image forming apparatus includes an image carrier, an exposure device, a developing device, a primary transfer device, a secondary transfer device, and a control unit. The exposure device exposes the image carrier to form an electrostatic latent image on the image carrier. The developing device forms a toner image by developing the electrostatic latent image using toner. The primary transfer device primarily transfers the toner image to a transfer body. The secondary transfer device applies a transfer bias to secondarily transfer the toner image to a recording medium. The control unit applies a cleaning bias to the secondary transfer device to remove residual toner after the secondary transfer. When the control unit determines that the toner image based on the exposed electrostatic latent image is not secondarily transferred at a predetermined timing, the first cleaning processing is performed until the subsequent processing is started.
US10962905B1
A toner sealing system is described including a seal having first and second alignment features. The seal is selectably installable on one of a first toner container of a first type and a second toner container of a second type. The first alignment feature is matable with a first corresponding alignment feature on the first toner container when the seal is installed on the first toner container for aligning the seal to the first toner container. The second alignment feature is matable with a second corresponding alignment feature on the second toner container when the seal is installed on the second toner container for aligning the seal to the second toner container. Embodiments include those wherein the first alignment feature does not align the seal to the second toner container, and the second alignment feature does not align the seal to the first toner container.
US10962902B2
An image forming apparatus includes an apparatus body, an image carrier, a developing device, a toner container, a container cover, a driver and a lock mechanism. The lock mechanism maintains the locking state if the container body is rotated in the first rotating direction by the driver, and receives a rotational drive force of the driver to switch the state thereof from the locking state to the unlocking state if the container body is rotated in the second rotating direction by the driver.
US10962901B2
An image forming apparatus includes an image forming unit configured to form an image by using a toner based on image data; a detector configured to detect the toner in the image forming unit; a mount portion to which a container containing the toner is mounted; and a controller configured to perform a supply control for supplying the toner from the container mounted to the mount portion, based on a detection result of the detector; determine a usage condition of the container mounted to the mount portion; determine an amount of the toner supplied from the container in the supply control, based on a determination result of the usage condition and the image data; cumulate the amount of the toner supplied from the container in the supply control; and determine a remaining amount of the toner in the container mounted to the mount, based on a cumulated amount.
US10962900B2
A seal member includes a first seal portion abutting an end portion of a rotating body to seal a gap between a storage container and the end portion, and a second seal portion abutting an end portion of a blade to seal a gap between the storage container and the end portion. The second seal portion has a tip contacting portion to contact a tip portion of the blade and a non-tip contacting portion to contact a portion of the blade except for the tip portion. The non-tip contacting portion is recessed to form a step between the non-tip contacting portion and the tip contacting portion. The tip contacting portion includes a base portion to contact with the storage container, an abutting portion configured to abut the blade, and a connecting portion which connects the base portion and the abutting portion to each other.
US10962894B2
A decolorizable toner allows for easy distinguishing between a sheet which can be reused and a sheet which is hardly able to be reused from each other. The decolorizable toner includes a color developable compound, a color developing agent, a decolorizing agent, a magnetic material, and a binder resin. The color developable compound is a precursor compound of a dye. The color developing agent is an electron accepting compound which donates a proton to the color developable compound. The decolorizing agent is a compound which inhibits a coloring reaction between the color developable compound and the color developing agent.
US10962893B2
An electrophotographic photoreceptor includes a conductive substrate; and a photosensitive layer arranged on the conductive substrate and containing, as a charge generating material, any one material selected from the group consisting of titanyl phthalocyanines, metal-free phthalocyanines, chlorogallium phthalocyanines and hydroxygallium phthalocyanines; and, as an electron transporting material, a naphthalene tetracarboxylic acid diimide compound represented by Formula (1) below, where R1 and R2 each represent a hydrogen atom, an alkyl group having 1 to 10 carbon atoms, an alkylene group, an alkoxy group, an alkyl ester group, a phenyl group optionally having a substituent, a naphthyl group optionally having a substituent, or a halogen element; and R1 and R2 are optionally the same or different: The photoreceptor realizes a stable print density even in a low-temperature environment by suppressing a reduction in print density that is caused by potential fluctuation of the photoreceptor in the low-temperature environment.
US10962886B2
Provided is a process of selecting a measurement location, the process including: obtaining pattern data describing a pattern to be applied to substrates in a patterning process; obtaining a process characteristic measured during or following processing of a substrate, the process characteristic characterizing the processing of the substrate; determining a simulated result of the patterning process based on the pattern data and the process characteristic; and selecting a measurement location for the substrate based on the simulated result.
US10962881B2
A method for lithography in semiconductor fabrication is provided. The method includes placing a semiconductor wafer having a plurality of exposure fields over a wafer stage. The method further includes projecting an extreme ultraviolet (EUV) light over the semiconductor wafer. The method also includes securing the semiconductor wafer to the wafer stage by applying a first adjusted voltage to an electrode of the wafer stage while the EUV light is projected to a first group of the exposure fields of the semiconductor wafer. The first adjusted voltage is in a range from about 1.6 kV to about 3.2 kV.
US10962873B2
A method of manufacturing an extreme ultraviolet mask, including forming a multilayer Mo/Si stack including alternating Mo and Si layers over a first major surface of a mask substrate, and forming a capping layer over the multilayer Mo/Si stack. An absorber layer is formed on the capping layer, and a hard mask layer is formed over the absorber layer. The hard mask layer is patterned to form a hard mask layer pattern. The hard mask layer pattern is extended into the absorber layer to expose the capping layer and form a mask pattern. A border pattern is formed around the mask pattern. The border pattern is extended through the multilayer Mo/Si stack to expose the mask substrate and form a trench surrounding the mask pattern. A passivation layer is formed along sidewalls of the trench.
US10962872B2
A dynamic brightness adjusting method is used for adjusting output brightness of an image projected by a projector. The method controls a lighting component of the projector to emit light in an adjustable lighting power, and controls a light limiting device disposed in front of the lighting component to allow the light to pass through in an adjustable light-passing rate. In an embodiment, the method adjusts the lighting power and the light-passing rate at the same time. In another embodiment, according to a brightness range in which a nominal maximum brightness value relative to an input image is located, the method fixes the lighting power and adjusts the light-passing rate according to the fixed lighting power and the nominal maximum brightness value, or fixes the light-passing rate and adjusts the lighting power according to the fixed light-passing rate and the nominal maximum brightness value.
US10962868B2
A projection device is disclosed. The projection device includes an air inlet, an air outlet, an optical engine, a heat sink, a fan and a combiner. A first passage is arranged between the air inlet and the air outlet for passing an air flow. The optical engine includes a light source and an imaging lens set outputting a projection light beam. The heat sink is connected to the optical engine, and a part of the heat sink is arranged in the first passage. The fan is arranged in the first passage. The combiner receives the projection light beam. The projection light beam moves in a propagating direction opposite to the entry direction.
US10962858B2
A novel imaging system is provided for capturing imaging data. According to the disclosed embodiments, the imaging system comprises one or more cameras configured to capture the same scene within each camera's field of view. The imaging system also includes a plurality of bandpass filters that may be positioned in front of one or more cameras. Each bandpass filter may allow the transmission of incident electromagnetic signals between different pairs of first and second wavelengths. Accordingly, when the bandpass filters are positioned in front of the one or more cameras, each camera captures a different spectral image, i.e., containing only certain frequency components of the same scene being imaged in the cameras. The bandpass filters may be selectively aligned with one or more cameras by rotating and/or translating the filters relative to the cameras' positions in the imaging system.
US10962854B2
The display device includes a first substrate; an active layer disposed on the first substrate; a first insulation layer disposed on the active layer; a first electrode layer disposed on the first insulation layer including a gate electrode line extending along a first direction and a protruding portion extending along a second direction; a second insulation layer disposed on the first electrode layer; and a second electrode layer disposed on the second insulation layer. The second electrode layer includes a date line extending along the second direction and a conductive layer. The conductive layer includes a first conductive portion and a second conductive portion, wherein the first conductive portion has a first maximum width A along the first direction, and the second conductive portion has a second maximum width B along the first direction. The first maximum width A is less than the second maximum width B.
US10962852B2
A liquid crystal display device includes a substrate, first through third thin-film transistors (“TFTs”) disposed on the substrate, and first and second sub-pixel electrodes disposed above the first through third TFTs. The second and third TFTs share a single output terminal as their output terminals, the first sub-pixel electrode is electrically connected to an output terminal of the first TFT, and the second sub-pixel electrode is electrically connected to the single output terminal of the second and third TFTs.
US10962836B2
A display device includes a first display panel, a second display panel, a quantum dot layer and a backlight module. The first display panel includes a first substrate, a second substrate, and a first display medium layer disposed between the second substrate and the first substrate. The second display panel includes a third substrate, a fourth substrate and a second display medium layer disposed between the third substrate and the fourth substrate. The quantum dot layer is disposed between the second substrate and the fourth substrate, and the quantum dot layer has multiple first quantum dot particles, multiple second quantum dot particles and multiple diffusing particles dispersed therein. The backlight module is located at a side of the second display panel.
US10962832B2
A display device is disclosed. The display device includes display unit and a negative refractive index functional layer on the display unit. The negative refractive index functional layer has a negative refractive index with respect to light from the display unit. A method for fabricating the display device is also disclosed.
US10962827B2
A back-light module includes a substrate, a plurality of light-emitting devices, and an optical film. The light-emitting devices are disposed on the substrate and are arranged in a rectangular array along an X direction and a Y direction. The optical film is disposed on the light-emitting devices and includes a plurality of pyramid structures arranged in arrays. Each pyramid structure includes four bottom edges. An angle between a bottom edge and the X direction and an angle between another bottom edge and the Y direction are greater than 0 degree and less than 45 degrees.
US10962817B2
A liquid crystal display panel and a liquid crystal display device are provided. The liquid crystal display panel includes: a first substrate, a second substrate arranged opposite to the first substrate, and a liquid crystal layer sandwiched between the first substrate and the second substrate, in which a heating electrode is arranged on a side of the first substrate facing towards the liquid crystal layer. Heat generated by the heating electrode can directly act on liquid crystal molecules in the liquid crystal layer, so that the liquid crystal display panel can be quickly started and a response of the liquid crystal molecules in the liquid crystal layer can be accelerated in a low temperature environment, thereby guaranteeing the display quality of the liquid crystal display device in the low temperature environment.
US10962816B2
A color-changing flexible fiber that can be incorporated into fabrics and other woven materials. The color changing flexible fibers are hollow and include at least two wire electrodes integrated into the wall of the hollow fiber that provide an electrical potential across an electro-optic medium disposed inside the hollow fiber. The electro-optic medium includes a non-polar solvent and at least one set of charged particles.
US10962813B2
The present invention provides an optical isolator module, including: a plurality of optical devices, each comprising a Faraday rotator and being configured to have an optical isolator function upon application of a magnetic field, a magnet to apply the magnetic field to the Faraday rotator in each of the plurality of optical devices, wherein at least two optical devices of the plurality of optical devices are configured to have the optical isolator functions in different directions from each other, and each magnetic field applied with the magnet is in the same direction. This provides an optical isolator module that can be prevented from degradation of the performance such as increase of insertion loss and degradation of isolation due to magnetic field interference even when a plurality of optical isolators are close to each other.
US10962812B2
An electro-optic modulator includes a doped structure disposed on a top silicon layer of a substrate. The doped structure includes an optical waveguide, and a first P-type doped region and a first N-type doped region disposed respectively on two sides of the optical waveguide. The first P-type doped region is connected to the optical waveguide by means of a plurality of P-type doped link arms, and the first N-type doped region is connected to the optical waveguide by means of a plurality of N-type doped link arms. End portions of the plurality of P-type doped link arms and end portions of the plurality of N-type doped link arms are alternately arranged along a direction of light propagation to form PN junction depletion layers. The PN junction depletion layers are periodically arranged along the direction of light propagation to form the optical waveguide.
US10962806B2
Optical lenses are described and include a polymeric interference filter disposed on a curved polymeric substrate. The optical lens has an average light transmission of less than 2% across a band of blue light from 400 nm to at least 420 and up to 440 nm and substantially transmits blue light greater than 450 nm.
US10962804B1
A lens element worn in front of an eye of a person includes a refraction area having a refractive power based on a prescription for the eye of the person, and a plurality of at least three optical elements, wherein the optical elements are configured so that along at least one section of the lens the mean sphere of optical elements increases from a point of the section towards the peripheral part of the section.
US10962797B2
An aerial image display device includes a display component, an imaging component, and a first limiter. The display component has a display surface for displaying an image. The imaging component has a first reflecting surface and a second reflecting surface that are arranged perpendicular to each other along an image formation plane of the imaging component. The imaging component forms an aerial image of the image in a display area that is symmetrical with the display surface with respect to the image formation plane. The first limiter is disposed closer to the display component than the imaging component. The first limiter limits an incident angle of incident light incident on the imaging component. The first reflection surface and the second reflection surface are inclined by an angle between 30° and 60° with respect to a median plane that includes a perpendicular of each of the display surface and the image formation plane.
US10962793B2
The present invention provides a method for producing a thermoplastic resin by reacting reactants comprising a dihydroxy compound. In this production method, the dihydroxy compound comprises a dihydroxy compound represented by the following formula (1), and at least one of a compound represented by the following formula (A), a compound represented by the following formula (B), and a compound represented by the following formula (C), wherein the total weight of the compound represented by the formula (A), the compound represented by the formula (B), and the compound represented by the formula (C) is 1,500 ppm or more, based on the weight (100 parts by weight) of the dihydroxy compound represented by the formula (1).
US10962787B1
An optical waveguide includes an input diffractive optical element arranged for being aligned with an optical projector for diffracting light beams therefrom, a waveguide substrate n, and an output diffractive optical element. Light beams diffracted by the output diffractive optical element are coupled out of the waveguide substrate towards users' eyes. The output diffractive optical element has an effective area arranged to maintain a constant output flux per unit area therein for providing an uniform image in brightness when the image is being projected out of the waveguide substrate.
US10962786B2
An optical device includes a range of angularly selective reflectors are contained within an optical waveguide substrate and substantially optimized according to their reflector order within the sequence of reflectors. This configuration of reflectors ensures that the required angular information is passed through to the correct reflector within the sequence. The angular response in addition reduces or eliminates formation of secondary images carried to successive reflectors, resulting in undesired artefacts.
US10962783B2
An electronic device has an electrically adjustable optical layer. Displays and other optical components may be supported by a housing structure. The housing structure may form a handheld device housing, a head-mounted housing, or other housing for the electronic device. Control circuitry in the electronic device may adjust the electrically adjustable optical layer. The control circuitry may reduce light transmission for the electrically adjustable optical layer to hide the optical components, may increase light transmission to reveal the optical components while the optical components are being used to receive light or to output light, and may otherwise adjust the electrically adjustable optical layer to exhibit a desired set of optical characteristics depending on the mode of operation of the electronic device.
US10962771B2
A lens system (100,200,300,400,500) that employs one or more liquids (130,230,340,350) to participate in correcting chromatic aberration. The liquids (130,230,340,350) are natural or having manually adjusted physical properties. The liquids (130,230,340,350) are filled in a chamber (430,540,550) formed by a frame and a lid (150,250,370,450,570) on a top surface of the frame, and a base (140,240,360,440,560) on a bottom surface of the frame.
US10962767B2
An optical scanning device includes a plurality of light sources, a light deflector, a light receiver, and circuitry. The light deflector scans light emitted from the plurality of light sources on a surface to be scanned. The light receiver receives light emitted from at least one of the light sources, at a predetermined timing. The circuitry adjusts a scanning position of the light deflector based on a timing at which the light receiver receives the light. The circuitry turns on at least one of the plurality of light sources that emits light having a wavelength of 600 [nm] or and causes the light receiver to receive the light at the predetermined timing.
US10962766B2
A micro electro mechanical system is provided. The micro electro mechanical system includes a first part bonded to a second part by a structural adhesive interface. The structural adhesive interface includes a conductive structural adhesive portion, and a non-conductive structural adhesive portion at least partially surrounding the conductive structural adhesive portion. The conductive structural adhesive portion and the non-conductive structural adhesive portion have a thixotropy index greater than one.
US10962761B2
A telescope including a fastener plate, a primary mirror carried by a front face of the plate, and a secondary mirror held facing the primary mirror by a support. The telescope is of the Cassegrain type and the plate has a rear surface including positioning references for positioning the telescope relative to an image capture device arranged facing the rear face.
US10962760B2
Systems and methods for providing a wider FOV for a telescope system are disclosed. In one embodiment, a telescope includes a primary mirror having an orifice, where an optical path originates from an object positioned in front of the primary mirror and reflects off the primary mirror. A secondary mirror is disposed adjacent to the primary mirror, where the optical path reflects off the secondary mirror and passes through the orifice in the primary mirror. The telescope includes a set of extended field corrector optics disposed along the optical path, the extended field corrector optics positioned to reflect light incident from the secondary mirror, where the set of extended field corrector optics includes two corrector mirrors. A tertiary mirror is disposed along the optical path and adjacent to the extended field corrector optics, the tertiary mirror positioned to reflect the light incident from the extended field corrector optics.
US10962758B2
An imaging system includes: an imaging apparatus that includes an image sensor and acquires a captured image; an optical system that includes a first objective and forms, within the image sensor, an optical image of a visual-field region that is a region within an object surface that corresponds to the objective field number (OFN) of the first objective; a motorized stage; and a control apparatus that constructs a first wide region image by piecing together a plurality of constituent images included in a plurality of captured images acquired by controlling the motorized stage and the imaging apparatus, the first wide region image being an image of a region wider than the visual-field region. Each of the plurality of constituent images is a portion of each of the plurality of captured images and is also at least a portion of each of images of a plurality of visual-field regions.
US10962750B2
An optical system includes a reflective optical system on a magnification side along an optical path of the projection optical system and a refractive optical system on a reduction side along the optical path. The reflective optical system includes one reflective optical element having a power. The refractive optical system includes a front group on the magnification side and a rear group on the reduction side. The front group having, in order from the magnification side toward the reduction side, a first lens group with a positive or negative refractive power, a second lens group, and a third lens group with a positive refractive power. The rear group has a positive refractive power. The first lens group moves to the magnification side, and the second lens group and the third lens group move to the reduction side in a change in focus from a long distance to a short distance.
US10962748B2
A projection zoom lens assembly for a digital cinema projection system includes three optical groups. A first optical group includes one or more wide angle lenses for projecting digital cinema images. A second optical group includes a set of zoom optical groups each comprising two or more lenses, including a first independently movable zoom group, a second independently movable zoom group, and a third zoom group. A third optical group includes multiple lenses for receiving images for projection.
US10962747B2
The maximum principal ray incident angle to an image surface is reduced in an image pickup device provided with an image pickup element. The image pickup device includes an image pickup lens, the image pickup element, and a cover glass. In the image pickup device, the cover glass is stuck on the image pickup element without containing air between them. In addition, in the image pickup device, the maximum incident angle of principal rays from the image pickup lens, to the cover glass is larger than 35 degrees. Furthermore, in the image pickup device, the refractive angle of the cover glass is at least 5 degrees smaller than the maximum incident angle.
US10962745B2
An optical lens assembly includes five lens elements and provides a TTL/EFL<1.0. In an embodiment, the focal length of the first lens element f1
US10962744B2
An optical lens assembly includes first, second, third, and fourth lens elements arranged in order from an object side to an image side along an optical axis. Each lens element has an object-side surface and an image-side surface. The object-side surface of the first lens element has a convex portion in a vicinity of a periphery. The second lens element has negative refracting power. The object-side surface of the third lens element has a concave portion in a vicinity of a periphery. The image-side surface of the fourth lens element has a convex portion in a vicinity of a periphery.
US10962742B2
The present disclosure discloses an optical imaging lens assembly. The optical imaging lens assembly includes, sequentially along an optical axis from an object side to an image side, a first lens having a refractive power; a second lens having a positive refractive power; a third lens having a refractive power; a fourth lens having a refractive power; a fifth lens having a refractive power; a sixth lens having a refractive power; a seventh lens having a refractive power, wherein an image-side surface of the seventh lens is a convex surface; and an eighth lens having a refractive power. There is an air spacing between any two adjacent lenses in the first to eighth lenses. A total effective focal length f of the optical imaging lens assembly and an entrance pupil diameter EPD of the optical imaging lens assembly satisfy: f/EPD≤2.0.
US10962740B2
The present disclosure discloses a camera lens assembly, the camera lens assembly having a total effective focal length f and an entrance pupil diameter EPD, and including sequentially, from an object side to an image side along an optical axis, a first lens, a second lens, a third lens, a fourth lens, a fifth lens, a sixth lens and a seventh lens. Each of the first lens and the sixth lens has a positive refractive power; each of the second lens, the third lens, the fifth lens and the seventh lens has a positive refractive power or a negative refractive power; and the fourth lens has a negative refractive power, an object-side surface of the fourth lens is a concave surface, and an image-side surface of the fourth lens is a convex surface. The total effective focal length f and the entrance pupil diameter EPD satisfy: f/EPD≤1.7.
US10962739B2
The present disclosure discloses a camera lens assembly includes, sequentially along an optical axis from an object side to an image side, a first lens, a second lens, a third lens and a fourth lens, the lenses having refractive powers. At least one of the first lens or the second lens has a positive refractive power. An object-side surface of the third lens and an image-side surface of the fourth lens are both concave surfaces. Half of a diagonal length ImgH of an effective pixel area on an image plane of the camera lens assembly and a total effective focal length f of the camera lens assembly satisfy: ImgH/f>1.
US10962736B2
A camera module includes: a housing configured to accommodate a lens module; and an actuator configured to move the lens module in an optical axis direction, and including a magnet disposed in the lens module and a coil facing the magnet, wherein a convex portion and a first step difference portion stepped from the convex portion are disposed on one surface of the lens module, wherein the first step difference portion is offset to one side of the lens module, with respect to the one surface of the lens module, and wherein the magnet is disposed in the first step difference portion.
US10962729B2
In one embodiment, an air-blown optical fiber unit includes one or more optical fibers, an inner layer substantially completely embedding the one or more optical fibers, and an outer layer radially external to the inner layer. The inner layer has a tensile strength of from 0.1 MPa to 1 MPa, and an elongation at break of from 10% to 80%.
US10962714B2
An apparatus and method for monitoring a change of a polarization state resulted from an optical link and optical receiver is provided. By combining zero-frequency response matrices and phase information on the received signal at two moments, a change matrix of the zero-frequency channel response matrices at the two moments is obtained, and a parameter characterizing a polarization state change induced by the optical link is determined according to the change matrix, which may dynamically monitor in real-time manner the polarization state change induced by the optical link, irrelevant to the polarization state of an input signal of the optical link. Due to the combination of the zero frequency response matrices and the phase information, response of the optical link may be completely reflected, for more accurate monitoring the polarization state. In addition, there is no need to add additional hardware and controls, thereby simplifying the structure and saving cost.
