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| − | '''Summary of the patent applications from Apple Inc. on October 26th, 2023'''
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| − | * Apple Inc. has recently filed patents for various inventions related to electronic devices, wireless communication, and wireless node technology.
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| − | * One patent describes an electronic device with an expandable display that can be expanded and retracted, improving the size and visibility of the display.
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| − | * Another patent focuses on improving the performance and reliability of wireless communication by introducing 2-step random access procedures for wireless devices.
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| − | * Apple Inc. has also filed a patent for methods and devices that enhance the transmission of a Physical Random Access Channel (PRACH) for communications beyond 52.6 GHz.
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| − | * The organization has filed a patent for a user equipment (UE) that is designed to receive and process control channel configuration information, improving the decoding process for important data.
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| − | * Apple Inc. has developed a system where a user device receives instructions from a network's base station regarding multiple scheduled data channels, and creates a codebook for acknowledging the receipt of data.
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| − | * Another patent focuses on configuring default beams in wireless communication, allowing the User Equipment (UE) to receive transmissions using a default beam based on received configuration information.
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| − | * Apple Inc. has filed a patent for a user equipment (UE) capable of implementing transmit power control (TPC) commands during a specific time period that includes multiple physical uplink shared channel (PUSCH) transmissions.
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| − | * The organization has developed a method for determining and enabling code block group (CBG) based transmissions in an unlicensed spectrum, improving the efficiency of data transmission.
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| − | * Apple Inc. has also filed a patent for technology that allows wireless devices to mute certain resource elements used for communication, enhancing the allocation of resource blocks for transmission.
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| − | * Lastly, the organization has filed a patent for a wireless node consisting of a radio and a processor, where the processor determines the number of repetitions needed to transmit a specific type of message called a physical uplink control channel (PUCCH) message.
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| | ==Patent applications for Apple Inc. on October 26th, 2023== | | ==Patent applications for Apple Inc. on October 26th, 2023== |
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| | Killian J. POORE | | Killian J. POORE |
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| − | '''Brief explanation'''
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| − | The abstract describes a device that can be worn on the head and has multiple microphones to detect sounds from different directions. It also has a speaker for playing audio and a display for showing visual information. The device can use the audio inputs to display an indicator on the display, showing the location of the sound source. It can also modify the audio output based on the detected sound and a target characteristic, such as the direction the user is looking, as detected by an eye sensor.
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| − |
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| − | '''Abstract'''
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| − | A head-mountable device can include multiple microphones for directional audio detection. The head-mountable device can also include a speaker for audio output and/or a display for visual output. The head-mountable device can be configured to provide visual outputs based on audio inputs by displaying an indicator on a display based on a location of a source of a sound. The head-mountable device can be configured to audio outputs based on audio inputs by modifying an audio output of the speaker based on a detected sound and a target characteristic. Such characteristics can be based on a direction of a gaze of the user, as detected by an eye sensor.
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| | ===Folded Camera with Actuator for Moving Optics ([[US Patent Application 18343441. Folded Camera with Actuator for Moving Optics simplified abstract|18343441]])=== | | ===Folded Camera with Actuator for Moving Optics ([[US Patent Application 18343441. Folded Camera with Actuator for Moving Optics simplified abstract|18343441]])=== |
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| | Nicholas D. Smyth | | Nicholas D. Smyth |
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| − | '''Brief explanation'''
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| − | The abstract describes different versions of a camera that has folded optics and lens shifting capabilities. This means that the camera has a design that allows it to have a compact size while still being able to adjust the lens position. The camera may have lens elements and prisms to achieve this folded optics arrangement. It may also have voice coil motor (VCM) actuator arrangements, carrier arrangements, and suspension arrangements to enable autofocus and optical image stabilization. Additionally, the camera may have position sensor arrangements to accurately sense the position of the lens during autofocus and image stabilization movements.
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| − |
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| − | '''Abstract'''
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| − | Various embodiments include a camera with folded optics and lens shifting capabilities. In some examples, a folded optics arrangement of the camera may include one or more lens elements and light path folding elements (e.g., prisms). Some embodiments include voice coil motor (VCM) actuator arrangements, carrier arrangements, and/or suspension arrangements to provide autofocus (AF) and/or optical image stabilization (OIS) movement. Furthermore, some embodiments include position sensor arrangements for position sensing with respect to AF and/or OIS movement.
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| | ===Optical Systems with Multiple Light Engines for Foveation ([[US Patent Application 18152012. Optical Systems with Multiple Light Engines for Foveation simplified abstract|18152012]])=== | | ===Optical Systems with Multiple Light Engines for Foveation ([[US Patent Application 18152012. Optical Systems with Multiple Light Engines for Foveation simplified abstract|18152012]])=== |
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| | Vikrant Bhakta | | Vikrant Bhakta |
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| − | '''Brief explanation'''
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| − | This abstract describes an electronic device that can display images with varying levels of resolution. The device consists of two display modules, one that produces a low resolution portion of the image and another that produces a high resolution portion. The device also includes a reflective input coupling prism mounted to a waveguide, and a steering mirror that overlaps the prism. The high resolution portion of the image is received by the mirror through the waveguide and prism, and then reflected back into the waveguide. The mirror can be adjusted to change the position of the high resolution portion within the image, aligning it with the direction of the viewer's gaze. The low resolution portion of the image is reflected into the waveguide by a reflective surface of the prism.
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| − |
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| − | '''Abstract'''
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| − | An electronic device may provide foveated images at an eye box. The device may have a first display module that produces a low resolution portion of the image and a second display module that produces a high resolution portion of the image. A reflective input coupling prism may be mounted to a waveguide. A steering mirror may overlap the prism. The mirror may receive the high resolution portion through the waveguide and the prism. The mirror may reflect the high resolution portion back into the waveguide and may be adjusted to shift a location of the high resolution portion within the image. For example, the steering mirror may adjust the position of the high resolution portion to align with the gaze direction at the eye box. A reflective surface of the prism may reflect the low resolution portion of the image into the waveguide.
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| | ===Optical Systems Having Light Sources with Power Saving Modes ([[US Patent Application 18156309. Optical Systems Having Light Sources with Power Saving Modes simplified abstract|18156309]])=== | | ===Optical Systems Having Light Sources with Power Saving Modes ([[US Patent Application 18156309. Optical Systems Having Light Sources with Power Saving Modes simplified abstract|18156309]])=== |
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| | Vikrant Bhakta | | Vikrant Bhakta |
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| − | '''Brief explanation'''
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| − | This abstract describes a display technology that uses illumination optics, a spatial modulator, and a waveguide to produce image light. The display includes both low power and high power light sources, which can be activated separately depending on the image data being displayed. When virtual objects in the image data are only present in the peripheral region of the viewer's field of view, the low power light sources are used to conserve energy. Control circuitry adjusts between these two states based on the image data.
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| − |
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| − | '''Abstract'''
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| − | A display may include illumination optics, a spatial modulator, and a waveguide. The illumination optics may produce illumination that is modulated by the spatial modulator to produce image light. The waveguide may direct the image light towards an eye box. The illumination optics may include light source sets that produce the illumination. Each set may include a low power light source and a high power light source. In a first state, the high and low power light sources may be active. In a second state, the low power light sources may be active. Control circuitry may adjust between the first and second states based on image data. The second state may be used when virtual objects in the image data are confined to a peripheral region of the field of view of the eye box.
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| | ===EXTERNAL RECORDING INDICATORS ([[US Patent Application 18307069. EXTERNAL RECORDING INDICATORS simplified abstract|18307069]])=== | | ===EXTERNAL RECORDING INDICATORS ([[US Patent Application 18307069. EXTERNAL RECORDING INDICATORS simplified abstract|18307069]])=== |
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| | Justin J. Schwab | | Justin J. Schwab |
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| − | '''Brief explanation'''
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| − | The abstract describes a method to prevent tampering with recording indicators on devices with cameras. These indicators emit visible light in an encrypted pattern and are placed outside the camera lens. The device can analyze captured frames to detect the encrypted pattern, and if it cannot be detected, recording is disabled. Additionally, modular accessories are introduced that need to be attached to the device to enable recording, serving as a signal to people in the vicinity that they may be recorded.
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| − | '''Abstract'''
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| − | Recording indicators for devices with cameras that provide protection from tampering so that the recording indicators cannot be easily disabled or masked. Recording indicators that are external to the camera lens and that emit visible light in an encrypted pattern are described. The device may process captured frames to detect the encrypted pattern; if the encrypted pattern cannot be detected, recording is disabled. In addition, modular accessories are described that the user has to attach to the device to enable recording; the presence of the modular attachment indicates to persons in the environment that they may be being recorded.
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| | ===FORCE-DETECTING INPUT STRUCTURE ([[US Patent Application 18217944. FORCE-DETECTING INPUT STRUCTURE simplified abstract|18217944]])=== | | ===FORCE-DETECTING INPUT STRUCTURE ([[US Patent Application 18217944. FORCE-DETECTING INPUT STRUCTURE simplified abstract|18217944]])=== |
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| | Colin M. Ely | | Colin M. Ely |
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| − | '''Brief explanation'''
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| − | The abstract describes a device that can detect the amount of force applied to it. The device includes an input mechanism, such as a crown, which is connected to an enclosure. The input mechanism can be rotated, moved up and down, and moved sideways with respect to the enclosure. There is also a sensor that is connected between the input mechanism and the enclosure, which measures the force applied to the input mechanism. A processing unit is connected to the sensor and can determine the measurement of the force based on the signal from the sensor.
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| − |
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| − | '''Abstract'''
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| − | An input mechanism, such as a crown, detects amounts of applied force. In various examples, an assembly including an input mechanism has an enclosure; a stem coupled to the enclosure such that the stem is rotatable, translatable, and transversely moveable with respect to the enclosure; a sensor, coupled between the stem and the housing, to which force is transferred when the stem moves with respect to the housing; and a processing unit coupled to the sensor. The processing unit is operable to determine a measurement of the force, based on a signal from the sensor.
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| | ===USER INTERFACES FOR FACILITATING OPERATIONS ([[US Patent Application 17951034. USER INTERFACES FOR FACILITATING OPERATIONS simplified abstract|17951034]])=== | | ===USER INTERFACES FOR FACILITATING OPERATIONS ([[US Patent Application 17951034. USER INTERFACES FOR FACILITATING OPERATIONS simplified abstract|17951034]])=== |
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| | Taylor G. CARRIGAN | | Taylor G. CARRIGAN |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes various features of user interfaces in computer systems. These interfaces provide guidance to users for performing operations and can adapt based on different types of user input and hardware devices. The computer systems can also adjust audio output based on specific events and display different types of notifications depending on the operating mode. Additionally, the systems may skip certain operations when operating in a low power mode.
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| − |
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| − | '''Abstract'''
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| − | The present disclosure generally relates to user interfaces for facilitating operations. In some examples, computer systems provide indications that educate and/or guide users for performing an operation. In some examples, computer systems perform a first operation based on a first type of user input corresponding to a first hardware input device and perform a second operation based on a second type of user input corresponding to the first hardware input devices. In some examples, computer systems adjust audio output of an emergency siren based on detecting a particular type of event. In some examples, computer systems display different types and/or sizes of notifications based on an operating mode of a respective computer system. In some examples, computer systems forgo performing one or more operations when a respective computer system operates in a low power mode.
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| | ===Eye Tracking Using Eye Odometers ([[US Patent Application 18347485. Eye Tracking Using Eye Odometers simplified abstract|18347485]])=== | | ===Eye Tracking Using Eye Odometers ([[US Patent Application 18347485. Eye Tracking Using Eye Odometers simplified abstract|18347485]])=== |
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| | Tom Sengelaub | | Tom Sengelaub |
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| − | '''Brief explanation'''
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| − | The abstract describes a low-power eye tracking system for a head-mounted device (HMD). The system includes cameras and eye odometers to detect the position and movements of the user's eyes. The eye odometers help reduce power consumption by tracking the relative movement of the user's eyes between camera frames, allowing the camera's frame rate to be reduced.
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| − |
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| − | '''Abstract'''
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| − | Low-power eye tracking for detecting position and movements of a user’s eyes in a head-mounted device (HMD). An eye tracking system for an HMD may include eye tracking cameras and eye odometers that may reduce power consumption of the system. The eye odometers may be used as a low-power component to track relative movement of the user’s eyes with respect to the HMD between frames captured by the eye tracking cameras, which may allow the frame rate of the eye tracking cameras to be reduced.
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| | | | |
| | ===METHOD AND DEVICE FOR PRESENTING A SYNTHESIZED REALITY USER INTERFACE ([[US Patent Application 18215318. METHOD AND DEVICE FOR PRESENTING A SYNTHESIZED REALITY USER INTERFACE simplified abstract|18215318]])=== | | ===METHOD AND DEVICE FOR PRESENTING A SYNTHESIZED REALITY USER INTERFACE ([[US Patent Application 18215318. METHOD AND DEVICE FOR PRESENTING A SYNTHESIZED REALITY USER INTERFACE simplified abstract|18215318]])=== |
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| | Ian M. Richter | | Ian M. Richter |
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| − | '''Brief explanation'''
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| − | The abstract describes a method that involves identifying different data items with specific metadata fields. It then explains how a volumetric environment is displayed, showing certain objects corresponding to a subset of the data items. The method also detects user input related to a different metadata field and, upon detecting this input, replaces the displayed objects with a new set of objects corresponding to a different subset of the data items.
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| − |
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| − | '''Abstract'''
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| − | In various implementations, a method comprises: identifying a plurality of data items, each of the plurality of data items having at least a first metadata field or a second metadata field; displaying a volumetric environment including a first plurality of SR objects corresponding to a first plurality of data items among the plurality of data items, wherein the first plurality of data items includes the first metadata field with first metadata field values; detecting a first user input indicative of the second metadata field; and in response to detecting the first user input, replacing the first plurality of SR objects within the volumetric environment with a second plurality of SR objects corresponding to a second plurality of data items among the plurality of data items, wherein each of the second plurality of data items includes the second metadata field with second metadata field values.
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| | ===CONCEALABLE INPUT REGION FOR AN ELECTRONIC DEVICE ([[US Patent Application 18347516. CONCEALABLE INPUT REGION FOR AN ELECTRONIC DEVICE simplified abstract|18347516]])=== | | ===CONCEALABLE INPUT REGION FOR AN ELECTRONIC DEVICE ([[US Patent Application 18347516. CONCEALABLE INPUT REGION FOR AN ELECTRONIC DEVICE simplified abstract|18347516]])=== |
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| | Paul X. Wang | | Paul X. Wang |
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| − | '''Brief explanation'''
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| − | The abstract describes an electronic device that has a hidden or concealable input region. The device includes an enclosure with a wall that has small holes called microperforations. Inside the enclosure, there is a light source that shines light through the microperforations. The device also has a sensing element that can detect input within the input region. When the light source is off, the microperforations are not visible. But when the light source is on, the microperforations can display a symbol.
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| − | '''Abstract'''
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| − | Embodiments are directed to an electronic device having a hidden or concealable input region. In one aspect, an embodiment includes an enclosure having a wall that defines an input region having an array of microperforations. A light source may be positioned within a volume defined by the enclosure and configured to propagate light through the array of microperforations. A sensing element may be coupled with the wall and configured to detect input received within the input region. The array of microperforations are configured to be visually imperceptible when not illuminated by the light source. When illuminated by the light source, the array of microperforations may display a symbol.
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| | ===Electronic Devices Having Moisture-Insensitive Optical Touch Sensors ([[US Patent Application 18175672. Electronic Devices Having Moisture-Insensitive Optical Touch Sensors simplified abstract|18175672]])=== | | ===Electronic Devices Having Moisture-Insensitive Optical Touch Sensors ([[US Patent Application 18175672. Electronic Devices Having Moisture-Insensitive Optical Touch Sensors simplified abstract|18175672]])=== |
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| | Mohammad Yeke Yazdandoost | | Mohammad Yeke Yazdandoost |
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| − | '''Brief explanation'''
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| − | This abstract describes an electronic device with a touch-sensitive display that can still work even when it is wet or exposed to moisture. The display uses a two-dimensional optical touch sensor, which includes light sources and light detectors. These components are mounted on the same surface as the display pixels, which are made of a type of semiconductor called a light-emitting diode. The touch sensor also includes filters that help distinguish between a user's finger and water droplets, improving accuracy.
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| − | '''Abstract'''
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| − | An electronic device may have a touch sensitive display that is insensitive to the presence of moisture. The display may have a two-dimensional optical touch sensor that gathers touch input while the electronic device is immersed in water or otherwise exposed to moisture. The optical touch sensor may include light sources and light detectors. The light sources and the light sensors may be mounted on a common substrate with an array of image pixels. The image pixels may be formed by crystalline semiconductor light-emitting diode dies. Angular filters may be included over the light sources and/or the light detectors to improve discrimination between a user's finger and water droplets. The angular filters may be on-axis light blocking angular filters or off-axis light blocking angular filters.
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| | ===Correcting for Emitted Light Wavelength Variation in Blood-Oxygen Saturation Measurements at Wearable Electronic Device ([[US Patent Application 18215694. Correcting for Emitted Light Wavelength Variation in Blood-Oxygen Saturation Measurements at Wearable Electronic Device simplified abstract|18215694]])=== | | ===Correcting for Emitted Light Wavelength Variation in Blood-Oxygen Saturation Measurements at Wearable Electronic Device ([[US Patent Application 18215694. Correcting for Emitted Light Wavelength Variation in Blood-Oxygen Saturation Measurements at Wearable Electronic Device simplified abstract|18215694]])=== |
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| | Ravi K. Shaga | | Ravi K. Shaga |
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| − | '''Brief explanation'''
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| − | The abstract describes a measurement engine in a wearable electronic device that can compensate for variations in the wavelength of light used to measure blood-oxygen saturation. This compensation is achieved by taking into account temperature data, drive current data, and calibration information. The measurement engine uses this data in different ways, such as using lookup tables or calibration curves, to determine estimated blood-oxygen saturation values.
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| − | '''Abstract'''
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| − | A measurement engine of a wearable electronic device may compensate for wavelength variations of light emitted as part of blood-oxygen saturation measurements. In some cases, determining an estimated blood-oxygen saturation value is based at least partially on temperature data that may be used to compensate for temperature-based wavelength variations of the emitted light, drive current data that may be used to compensate for drive-current-based wavelength variations of the emitted light, and/or calibration information that may be used to compensate for manufacturing variability across different light emitters. In various embodiments, the measurement engine may use temperature data, the drive current data, and/or calibration information in a variety of ways to determine estimated blood-oxygen saturation values, including using lookup tables or calibration curves, applying functions, and the like.
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| | ===USER INTERFACES FOR SHARING LOCATIONS OF FINDABLE ITEMS ([[US Patent Application 18304911. USER INTERFACES FOR SHARING LOCATIONS OF FINDABLE ITEMS simplified abstract|18304911]])=== | | ===USER INTERFACES FOR SHARING LOCATIONS OF FINDABLE ITEMS ([[US Patent Application 18304911. USER INTERFACES FOR SHARING LOCATIONS OF FINDABLE ITEMS simplified abstract|18304911]])=== |
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| | Frank DE JONG | | Frank DE JONG |
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| − | '''Brief explanation'''
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| − | This abstract describes various embodiments of electronic devices that can send and receive invitations for accessing the locations of findable items. These devices can also notify the user when an unknown remote locator object is tracking them. Additionally, the devices can request and either grant or reject authorization to obtain location information for findable items.
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| − | '''Abstract'''
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| − | Some embodiments described in this disclosure are directed to one or more electronic devices that receive and/or transmit invitations for accessing locations of findable items. Some embodiments described in this disclosure are directed to one or more electronic devices that present notifications when an unknown remote locator object is tracking the user. Some embodiments described in this disclosure are directed to one or more electronic devices that request, and grant or reject authorization to obtain location information of findable items.
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| | ===USER INTERFACES FOR FACILITATING OPERATIONS ([[US Patent Application 17951016. USER INTERFACES FOR FACILITATING OPERATIONS simplified abstract|17951016]])=== | | ===USER INTERFACES FOR FACILITATING OPERATIONS ([[US Patent Application 17951016. USER INTERFACES FOR FACILITATING OPERATIONS simplified abstract|17951016]])=== |
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| | Taylor G. CARRIGAN | | Taylor G. CARRIGAN |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes various features and functionalities of user interfaces in computer systems. These interfaces provide guidance and education to users for performing operations. The systems can differentiate between different types of user inputs and perform corresponding operations accordingly. They can also adjust audio output of emergency sirens based on specific events and display different types of notifications based on the operating mode of the computer system. Additionally, the systems can choose to skip certain operations when operating in a low power mode.
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| − |
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| − | '''Abstract'''
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| − | The present disclosure generally relates to user interfaces for facilitating operations. In some examples, computer systems provide indications that educate and/or guide users for performing an operation. In some examples, computer systems perform a first operation based on a first type of user input corresponding to a first hardware input device and perform a second operation based on a second type of user input corresponding to the first hardware input devices. In some examples, computer systems adjust audio output of an emergency siren based on detecting a particular type of event. In some examples, computer systems display different types and/or sizes of notifications based on an operating mode of a respective computer system. In some examples, computer systems forgo performing one or more operations when a respective computer system operates in a low power mode.
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| | ===Hardware Element Abstraction ([[US Patent Application 18306509. Hardware Element Abstraction simplified abstract|18306509]])=== | | ===Hardware Element Abstraction ([[US Patent Application 18306509. Hardware Element Abstraction simplified abstract|18306509]])=== |
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| | Matthew S. Koonce | | Matthew S. Koonce |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a process of implementing a configurable input component on a device. This component detects user input and determines the context of the input. Based on this context, a set of actions associated with a specific application is identified. The device then selects the next action to be performed by the application based on the context information. Finally, the selected action is executed by the application.
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| − | '''Abstract'''
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| − | Implementing a configurable input component includes detecting user input via a configurable input component of a device, determining, by the device, context information, and identifying a set of actions associated with a first application. A next action is selected based on the context information, and the application is caused to perform the selected next action.
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| | ===VISUALIZATION OF BIOSIGNALS USING MACHINE-LEARNING GENERATED CONTENT ([[US Patent Application 18080736. VISUALIZATION OF BIOSIGNALS USING MACHINE-LEARNING GENERATED CONTENT simplified abstract|18080736]])=== | | ===VISUALIZATION OF BIOSIGNALS USING MACHINE-LEARNING GENERATED CONTENT ([[US Patent Application 18080736. VISUALIZATION OF BIOSIGNALS USING MACHINE-LEARNING GENERATED CONTENT simplified abstract|18080736]])=== |
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| | Joseph Y. CHENG | | Joseph Y. CHENG |
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| − | '''Brief explanation'''
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| − | The abstract describes a method that involves taking biosignal data from a user, converting it into a vector, and using a generative model to create an image based on that vector. The resulting image can then be displayed.
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| − | '''Abstract'''
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| − | A method is provided that includes receiving biosignal data measured from a user, encoding the biosignal data into a vector, and generating, using a generative model, an image based on the vector. The generated image is provided for display.
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| | ===Method for Facial Animation ([[US Patent Application 18314604. Method for Facial Animation simplified abstract|18314604]])=== | | ===Method for Facial Animation ([[US Patent Application 18314604. Method for Facial Animation simplified abstract|18314604]])=== |
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| | Thibaut Weise | | Thibaut Weise |
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| − | '''Brief explanation'''
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| − | This abstract describes a method for animating a digital character based on the facial expressions of a user. The process involves obtaining a 2D image and 3D depth map of the user's face, determining expression parameters for a user-specific expression model that represents the user's facial expression, using these parameters and a sequence of predefined animation parameters to animate a digital character, and ultimately making the digital character mimic the user's facial expressions.
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| − | '''Abstract'''
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| − | A method of animating a digital character according to facial expressions of a user, comprising the steps of, (a) obtaining a 2D image and 3D depth map of the face of the user, (b) determining expression parameters for a user expression model so that a facial expression of the user-specific expression model represents the face of the user shown in the 2D image and 3D depth map (c) using the expression parameters and an animation prior to determine animation parameters usable to animate a digital character, wherein the animation prior is a sequence of animation parameters which represent predefined animations of a digital character (d) using the animation parameters to animate a digital character so that the digital character mimics the face of the user.
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| | ===Selecting Multiple Virtual Objects ([[US Patent Application 18123841. Selecting Multiple Virtual Objects simplified abstract|18123841]])=== | | ===Selecting Multiple Virtual Objects ([[US Patent Application 18123841. Selecting Multiple Virtual Objects simplified abstract|18123841]])=== |
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| | Jordan A. Cazamias | | Jordan A. Cazamias |
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| − | '''Brief explanation'''
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| − | The abstract describes different ways to select multiple virtual objects in a digital environment. It explains that a method involves receiving a gesture for one virtual object and detecting if it moves close to another virtual object. If this happens, both objects will move together based on the initial gesture.
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| − | '''Abstract'''
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| − | Various implementations disclosed herein include devices, systems, and methods for selecting multiple virtual objects within an environment. In some implementations, a method includes receiving a first gesture associated with a first virtual object in an environment. A movement of the first virtual object in the environment within a threshold distance of a second virtual object in the environment is detected. In response to detecting the movement of the first virtual object in the environment within the threshold distance of the second virtual object in the environment, a concurrent movement of the first virtual object and the second virtual object is displayed in the environment based on the first gesture.
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| | ===Method and Device for Improving Comfortability of Virtual Content ([[US Patent Application 18136760. Method and Device for Improving Comfortability of Virtual Content simplified abstract|18136760]])=== | | ===Method and Device for Improving Comfortability of Virtual Content ([[US Patent Application 18136760. Method and Device for Improving Comfortability of Virtual Content simplified abstract|18136760]])=== |
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| | Rahul Nair | | Rahul Nair |
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| − |
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| − | '''Brief explanation'''
| |
| − | This abstract describes a method for improving the comfort of virtual content in a virtual reality environment when the user moves their head from side to side. The method involves determining a reference point for the virtual scene, detecting the user's head position, and presenting the virtual content in different ways depending on the difference between the reference point and the user's head position. If the difference is small, the virtual content is presented in a way that aligns with the user's head position. If the difference is large, the virtual content is presented in a way that aligns with the reference point.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | In one implementation, a method for improving comfortability of virtual content during head roll motions includes: determining a scene roll origin value for an XR environment; detecting a head pose with pose roll value; when a difference between the scene roll origin value and the pose roll value is less than a first angular threshold, presenting virtual content within the XR environment in a first presentation mode, wherein the virtual content is presented with a first content roll value in the first presentation mode based the pose roll value; and when the difference between the scene roll origin value and the pose roll value is not less than the first angular threshold, presenting the virtual content within the XR environment in a second presentation mode, wherein the virtual content is presented with a second content roll value in the second presentation mode based on the scene roll origin value.
| |
| | | | |
| | ===OBSTRUCTED OBJECTS IN A THREE-DIMENSIONAL ENVIRONMENT ([[US Patent Application 18304290. OBSTRUCTED OBJECTS IN A THREE-DIMENSIONAL ENVIRONMENT simplified abstract|18304290]])=== | | ===OBSTRUCTED OBJECTS IN A THREE-DIMENSIONAL ENVIRONMENT ([[US Patent Application 18304290. OBSTRUCTED OBJECTS IN A THREE-DIMENSIONAL ENVIRONMENT simplified abstract|18304290]])=== |
| Line 291: |
Line 160: |
| | Benjamin H. BOESEL | | Benjamin H. BOESEL |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a computer system that can make virtual content appear less noticeable in a 3D environment. It can also display an indication of a physical object in the same environment. Additionally, the system can reduce the visibility of virtual content to allow a physical object, like a person, to stand out. This is determined based on certain criteria that define a significant social interaction.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | In some embodiments, a computer system reduces a visual prominence of virtual content relative to a three-dimensional environment. In some embodiments, a computer system displays an indication of a physical object in a three-dimensional environment. In some embodiments, a computer system reduces a visual prominence of the virtual content and enables a physical object, such as a person, to break through the virtual content, such as based on a determination that the physical object satisfies one or more criteria to constitute a salient social interaction.
| |
| | | | |
| | ===AVATAR CREATION USER INTERFACE ([[US Patent Application 18138634. AVATAR CREATION USER INTERFACE simplified abstract|18138634]])=== | | ===AVATAR CREATION USER INTERFACE ([[US Patent Application 18138634. AVATAR CREATION USER INTERFACE simplified abstract|18138634]])=== |
| Line 305: |
Line 168: |
| | Nicolas SCAPEL | | Nicolas SCAPEL |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a technology that allows users to create and edit avatars, as well as navigate through different avatar options. It mentions that the technology includes a user interface with customizable features for creating avatars, and the ability to manage different types of avatars for different applications. Additionally, it mentions the availability of an interface for easily navigating through different types of avatars within an application.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | The present disclosure generally relates to creating and editing avatars, and navigating avatar selection interfaces. In some examples, an avatar feature user interface includes a plurality of feature options that can be customized to create an avatar. In some examples, different types of avatars can be managed for use in different applications. In some examples, an interface is provided for navigating types of avatars for an application.
| |
| | | | |
| | ===Devices, Methods, and Graphical User Interfaces for Providing Haptic Feedback ([[US Patent Application 18216546. Devices, Methods, and Graphical User Interfaces for Providing Haptic Feedback simplified abstract|18216546]])=== | | ===Devices, Methods, and Graphical User Interfaces for Providing Haptic Feedback ([[US Patent Application 18216546. Devices, Methods, and Graphical User Interfaces for Providing Haptic Feedback simplified abstract|18216546]])=== |
| Line 319: |
Line 176: |
| | Camille Moussette | | Camille Moussette |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device with a user interface that has two adjustable controls. The device can detect when a user performs a drag gesture on a touch-sensitive surface. If the drag gesture is performed while the focus selector is on the first adjustable control, the device will provide a specific pattern of tactile feedback. If the drag gesture is performed while the focus selector is on the second adjustable control, the device will provide a different pattern of tactile feedback.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | An electronic device displays a user interface that includes a first adjustable control and a second adjustable control and detects movement of a first contact across a touch-sensitive surface in a drag gesture. In accordance with a determination that the drag gesture is performed while a focus selector is at a location that corresponds to the first adjustable control: the device outputs a first plurality of tactile outputs that has a first distribution of tactile outputs. In accordance with a determination that the drag gesture is performed while the focus selector is at a location that corresponds to the second adjustable control, the device outputs a second plurality of tactile outputs. The second plurality of tactile outputs has a second distribution of tactile outputs that is different from the first distribution of tactile outputs.
| |
| | | | |
| | ===USER INTERFACES FOR FACILITATING OPERATIONS ([[US Patent Application 17951035. USER INTERFACES FOR FACILITATING OPERATIONS simplified abstract|17951035]])=== | | ===USER INTERFACES FOR FACILITATING OPERATIONS ([[US Patent Application 17951035. USER INTERFACES FOR FACILITATING OPERATIONS simplified abstract|17951035]])=== |
| Line 333: |
Line 184: |
| | Taylor G. CARRIGAN | | Taylor G. CARRIGAN |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes various features and functionalities of user interfaces in computer systems. It mentions that the computer systems provide indications to guide users in performing operations. It also states that the computer systems can perform different operations based on different types of user input. Additionally, the computer systems can adjust audio output of an emergency siren based on specific events and display different types of notifications based on the operating mode. Lastly, it mentions that the computer systems may skip certain operations when operating in a low power mode.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | The present disclosure generally relates to user interfaces for facilitating operations. In some examples, computer systems provide indications that educate and/or guide users for performing an operation. In some examples, computer systems perform a first operation based on a first type of user input corresponding to a first hardware input device and perform a second operation based on a second type of user input corresponding to the first hardware input devices. In some examples, computer systems adjust audio output of an emergency siren based on detecting a particular type of event. In some examples, computer systems display different types and/or sizes of notifications based on an operating mode of a respective computer system. In some examples, computer systems forgo performing one or more operations when a respective computer system operates in a low power mode.
| |
| | | | |
| | ===Temperature-Based Pixel Drive Compensation ([[US Patent Application 18339229. Temperature-Based Pixel Drive Compensation simplified abstract|18339229]])=== | | ===Temperature-Based Pixel Drive Compensation ([[US Patent Application 18339229. Temperature-Based Pixel Drive Compensation simplified abstract|18339229]])=== |
| Line 347: |
Line 192: |
| | Mahesh B. Chappalli | | Mahesh B. Chappalli |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for compensating image data in a current frame of a display panel to account for variations in the panel's transient response. This compensation, known as pixel drive compensation, is based on the panel's multi-frame history. By considering previous frames, the method adjusts the drive of individual pixels to ensure consistent image quality. This approach allows for the implementation of drive compensation that takes into account the display panel's performance over multiple frames.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Image data for a current image frame may be compensated for transient response variations due to variations at various positions of the display panel by performing pixel drive compensation. The pixel drive compensation may be performed based at least in part upon a multi-frame history of the display panel. In this way, drive compensation corresponding to multi-frame history of a display panel may be implemented.
| |
| | | | |
| | ===Display with Side-Wrapped Conductive Traces ([[US Patent Application 18185237. Display with Side-Wrapped Conductive Traces simplified abstract|18185237]])=== | | ===Display with Side-Wrapped Conductive Traces ([[US Patent Application 18185237. Display with Side-Wrapped Conductive Traces simplified abstract|18185237]])=== |
| Line 361: |
Line 200: |
| | Han-Chieh Chang | | Han-Chieh Chang |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method of wrapping conductive traces around the side of a display panel to connect contacts on the panel to a flexible printed circuit. The conductive traces are placed between insulating layers and the flexible printed circuit has a multi-step interface. A system-in-package, which includes a display driver integrated circuit, is mounted to the flexible printed circuit using redistribution layers to connect the contacts.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Conductive traces may be conformally wrapped around the side of a display panel that includes an array of display pixels. The conductive traces may electrically connect contacts on an upper surface of the display panel to corresponding contacts on a flexible printed circuit that is attached to a lower surface of the display panel. The side-wrapped conductive traces may be interposed between first and second insulating layers. The flexible printed circuit may have a multi-step interface that is electrically connected to the side-wrapped conductive traces. A system-in-package including a display driver integrated circuit may be mounted to the flexible printed circuit. The system-in-package may include a plurality of redistribution layers that electrically connect contacts on the display driver integrated circuit to contacts on the flexible printed circuit.
| |
| | | | |
| | ===SYSTEM AND METHOD FOR VARIABLE DISCHARGING TECHNIQUES OF A BATTERY CELL ([[US Patent Application 17860806. SYSTEM AND METHOD FOR VARIABLE DISCHARGING TECHNIQUES OF A BATTERY CELL simplified abstract|17860806]])=== | | ===SYSTEM AND METHOD FOR VARIABLE DISCHARGING TECHNIQUES OF A BATTERY CELL ([[US Patent Application 17860806. SYSTEM AND METHOD FOR VARIABLE DISCHARGING TECHNIQUES OF A BATTERY CELL simplified abstract|17860806]])=== |
| Line 375: |
Line 208: |
| | Hyea Kim | | Hyea Kim |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method to improve the lifetime and capacity of lithium-ion batteries by adjusting the discharging protocols. A battery management unit controller monitors the number of cycles the battery cells have undergone and adjusts the cut-off voltage accordingly. This adjustment helps to prolong the battery's lifespan and maintain its capacity.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | The present disclosure is directed to variable discharging protocols for one or more battery cells of a lithium-ion battery that improve the lifetime of the lithium-ion battery and/or the cell capacity of the battery. A battery management unit (BMU) controller of the lithium-ion battery may determine a number of cycles undergone by the one or more battery cells and modify a cut-off voltage (e.g., a lower cut-off voltage) based on the number of cycles. For example, the BMU controller may decrease the LCV after the number of cycles exceeds a threshold or is within a threshold range.
| |
| | | | |
| | ===Communication Between Devices in a Wireless Charging System ([[US Patent Application 18342444. Communication Between Devices in a Wireless Charging System simplified abstract|18342444]])=== | | ===Communication Between Devices in a Wireless Charging System ([[US Patent Application 18342444. Communication Between Devices in a Wireless Charging System simplified abstract|18342444]])=== |
| Line 389: |
Line 216: |
| | Zaid A. AbuKhalaf | | Zaid A. AbuKhalaf |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless power system that consists of devices that can transmit and receive power wirelessly. These devices can also exchange data using different types of communication methods. The devices in the system have unique addresses that allow them to communicate with each other, even if they are not directly connected. The communication packets can be relayed through other devices in the system to establish a connection between two devices.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A wireless power system may include wireless power transmitting devices, wireless power receiving devices, and wireless power transmitting and receiving devices. The devices in the wireless power system may exchange packets in order to transfer various types of data. The data may be transmitted using in-band communication (e.g., amplitude-shift keying modulation or frequency-shift keying modulation). The devices may use locally assigned addresses to communicate with any other device in the wireless power system. Even if a first device is not inductively coupled to a second device, the locally assigned addresses may identify an inductive coupling path from the first device to the second device that includes at least one intervening device. The first device may therefore communicate with the second device using in-band communication packets that are relayed by at least one intervening device.
| |
| | | | |
| | ===DYNAMIC CONTENT ENCODING ([[US Patent Application 18077196. DYNAMIC CONTENT ENCODING simplified abstract|18077196]])=== | | ===DYNAMIC CONTENT ENCODING ([[US Patent Application 18077196. DYNAMIC CONTENT ENCODING simplified abstract|18077196]])=== |
| Line 403: |
Line 224: |
| | Christian T. MARTELOCK | | Christian T. MARTELOCK |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for encoding text by converting it into a sequence of bytes. Each byte represents a character in the text. The encoding process involves processing each bit of the byte from the most significant bit to the least significant bit. A context is generated based on the processed bits, and a prediction model is used to predict the next bit. The prediction is a combination of predictions from multiple sub-models. The encoded data is then output as a bitstream, which represents the original text.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A method for encoding text includes grouping text as a sequence of bytes, the text comprising a string of characters, each byte corresponding to a character in the text. For each byte of the sequence of bytes: (a) each bit is processed from most significant bit to least significant bit to generate a context; and (b) a subsequent bit is predicted, using a prediction model, based on the context generated based on previously processed bits, prediction of the prediction model being a combination of predictions of a plurality of sub-models. An encoded bitstream is output based on the predicted bits. The encoded bitstream includes encoded data corresponding to the text.
| |
| | | | |
| | ===FAST MEASUREMENT WITH MULTIPLE CONCURRENT BEAMS ([[US Patent Application 17598237. FAST MEASUREMENT WITH MULTIPLE CONCURRENT BEAMS simplified abstract|17598237]])=== | | ===FAST MEASUREMENT WITH MULTIPLE CONCURRENT BEAMS ([[US Patent Application 17598237. FAST MEASUREMENT WITH MULTIPLE CONCURRENT BEAMS simplified abstract|17598237]])=== |
| Line 417: |
Line 232: |
| | Qiming Li | | Qiming Li |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for a user equipment (UE) device. The method involves generating a message that includes information about the UE's capability to simultaneously measure at least two downlink (DL) beams. This message is then transmitted to a base station.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Provided is a method for a user equipment (UE), comprising: generating a message that includes an indication of a capability of the UE indicating whether the UE supports simultaneous measurement for at least two downlink (DL) beams; and transmitting the message to a base station.
| |
| | | | |
| | ===APPARATUS AND METHOD FOR BEAM REPORTING, BEAM INDICATION AND SCHEDULING OF DATA TRANSMISSION DURING BEAM MANAGEMENT ([[US Patent Application 18216555. APPARATUS AND METHOD FOR BEAM REPORTING, BEAM INDICATION AND SCHEDULING OF DATA TRANSMISSION DURING BEAM MANAGEMENT simplified abstract|18216555]])=== | | ===APPARATUS AND METHOD FOR BEAM REPORTING, BEAM INDICATION AND SCHEDULING OF DATA TRANSMISSION DURING BEAM MANAGEMENT ([[US Patent Application 18216555. APPARATUS AND METHOD FOR BEAM REPORTING, BEAM INDICATION AND SCHEDULING OF DATA TRANSMISSION DURING BEAM MANAGEMENT simplified abstract|18216555]])=== |
| Line 431: |
Line 240: |
| | Guotong Wang | | Guotong Wang |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes various techniques and tools for managing data transmission in a wireless communication system. These include methods, devices, and storage media for reporting and indicating the status of communication beams, as well as scheduling data transmission. The abstract does not provide any exaggerated claims or a specific title.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Embodiments of the present disclosure describe apparatuses, methods and machine-readable storage medium for beam reporting, beam indication and scheduling of data transmission during beam management.
| |
| | | | |
| | ===SPECTRUM EMISSION MASK VERIFICATION BASED ON EIRP MEASUREMENT ([[US Patent Application 18101020. SPECTRUM EMISSION MASK VERIFICATION BASED ON EIRP MEASUREMENT simplified abstract|18101020]])=== | | ===SPECTRUM EMISSION MASK VERIFICATION BASED ON EIRP MEASUREMENT ([[US Patent Application 18101020. SPECTRUM EMISSION MASK VERIFICATION BASED ON EIRP MEASUREMENT simplified abstract|18101020]])=== |
| Line 445: |
Line 248: |
| | Fucheng Wang | | Fucheng Wang |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a testing device that measures the power of a desired signal in a specific direction and the maximum power of that signal. It then calculates the difference between these two powers. The device also measures the power of a spectral emission mask (SEM) at different frequency ranges in the same direction. By comparing the difference in power between the SEM and the desired signal, the device determines the total radiated power (TRP) at each frequency range. It then checks if the TRP meets a specified SEM requirement and reports the result.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A testing device determines an Effective Isotropic Radiated Power (EIRP) of a wanted signal at a beam-peak direction and a maximum Total Radiated Power (TRP) of the wanted signal. The testing device then determines a power difference (ΔP) between the EIRP of the wanted signal at the beam-peak direction and the maximum TRP of the wanted signal. The testing device determines EIRP of a spectral emission mask (SEM) at each measurement bandwidth step at the beam-peak direction. The testing device then determines TRP at each measurement bandwidth step by determining a difference between the EIRP of the SEM at that measurement bandwidth step and the power difference (ΔP). The testing device compares the TRP at each measurement bandwidth step to a SEM specification, and reports whether the SEM specification has been met.
| |
| | | | |
| | ===METHODS AND SYSTEMS FOR LANGUAGE PROCESSING WITH RADIO DEVICES ([[US Patent Application 17868393. METHODS AND SYSTEMS FOR LANGUAGE PROCESSING WITH RADIO DEVICES simplified abstract|17868393]])=== | | ===METHODS AND SYSTEMS FOR LANGUAGE PROCESSING WITH RADIO DEVICES ([[US Patent Application 17868393. METHODS AND SYSTEMS FOR LANGUAGE PROCESSING WITH RADIO DEVICES simplified abstract|17868393]])=== |
| Line 459: |
Line 256: |
| | Andrew B. INGEBRETSEN | | Andrew B. INGEBRETSEN |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a system that allows radio devices to process language. It explains that the system receives radio broadcast information and modifies a vocabulary based on that information. It then receives speech input from a user and determines the user's intent using the modified vocabulary. Finally, it transmits a request to a second electronic device based on the user's intent.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Systems and processes for language processing with radio devices are provided. For example, radio broadcast information is received at a first electronic device, and a vocabulary is modified based on the received radio broadcast information. A speech input is received from a user of the first electronic device. A user intent of the speech input is obtained based on the modified vocabulary. A request is transmitted, based on the user intent, to a second electronic device.
| |
| | | | |
| | ===CHANNEL STATE INFORMATION (CSI) FOR NEW RADIO (NR) SIDE-LINKS ([[US Patent Application 18125794. CHANNEL STATE INFORMATION (CSI) FOR NEW RADIO (NR) SIDE-LINKS simplified abstract|18125794]])=== | | ===CHANNEL STATE INFORMATION (CSI) FOR NEW RADIO (NR) SIDE-LINKS ([[US Patent Application 18125794. CHANNEL STATE INFORMATION (CSI) FOR NEW RADIO (NR) SIDE-LINKS simplified abstract|18125794]])=== |
| Line 473: |
Line 264: |
| | Haitong SUN | | Haitong SUN |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a user equipment (UE) that can communicate wirelessly with a base station and another UE. The UE has a transceiver and a processor. The processor can select a group of subcarriers from two physical resource blocks (PRBs), which can be either one subcarrier or more than two subcarriers. The processor then uses the selected subcarriers to transmit channel state information reference signals (CSI-RSs) to the second UE using the first set of antenna ports of the transceiver. The CSI-RSs are transmitted in a set of resource elements (REs) that occupy the selected subcarriers.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Aspects are described for a user equipment (UE) comprising a transceiver configured to enable wireless communication with a base station and a second UE, and a processor communicatively coupled to the transceiver. The processor is configured to determine a set of subcarriers from two physical resource blocks (PRBs). The set of subcarriers includes only one subcarrier or more than two subcarriers. The processor is further configured to transmit, using the first set of antenna ports of the transceiver, channel state information reference signals (CSI-RSs) in a set of resource elements (REs) to the second UE. The set of REs occupies the set of subcarriers.
| |
| | | | |
| | ===SIMULTANEOUS MULTIPLE SECONDARY CELL (SCELL) FAST ACTIVATION ([[US Patent Application 18101350. SIMULTANEOUS MULTIPLE SECONDARY CELL (SCELL) FAST ACTIVATION simplified abstract|18101350]])=== | | ===SIMULTANEOUS MULTIPLE SECONDARY CELL (SCELL) FAST ACTIVATION ([[US Patent Application 18101350. SIMULTANEOUS MULTIPLE SECONDARY CELL (SCELL) FAST ACTIVATION simplified abstract|18101350]])=== |
| Line 487: |
Line 272: |
| | Qiming LI | | Qiming LI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technology that allows multiple secondary cells (SCells) to be activated simultaneously in a wireless communications system. The system includes a user equipment (UE) that can activate multiple SCells at the same time. The UE receives an activation command and then receives two or more temporary reference signals (T-RSs) that are specific to the UE. These T-RSs are used for precise time and frequency tracking as well as automatic gain control (AGC) adjustment of the corresponding SCells. This results in faster activation of the SCells compared to traditional methods that use synchronization signals (SS) or physical broadcast channel (PBCH) block measurement timing configuration (SMTC).
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Some embodiments include an apparatus, method, and computer program product for simultaneous multiple secondary cell (SCell) fast activation in a wireless communications system. Some embodiments include a user equipment (UE) that can simultaneously activate multiple SCells. In some embodiments, after receiving an activation command, the UE can receive two or more temporary reference signals (T-RSs) which are user equipment (UE) specific reference signals. The UE can use the T-RSs for fine time/frequency (T/F) tracking and Automatic Gain Control (AGC) adjustment of corresponding SCells resulting in reduced SCell activation latency compared to utilizing a Synchronization Signal (SS)/Physical Broadcast Channel (PBCH) Block Measurement Timing Configuration (SMTC).
| |
| | | | |
| | ===QCL CONFIGURATION AND DCI INDICATION FOR UNIFIED FRAMEWORK ([[US Patent Application 17598078. QCL CONFIGURATION AND DCI INDICATION FOR UNIFIED FRAMEWORK simplified abstract|17598078]])=== | | ===QCL CONFIGURATION AND DCI INDICATION FOR UNIFIED FRAMEWORK ([[US Patent Application 17598078. QCL CONFIGURATION AND DCI INDICATION FOR UNIFIED FRAMEWORK simplified abstract|17598078]])=== |
| Line 501: |
Line 280: |
| | Yushu Zhang | | Yushu Zhang |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method of communication between a base station and a user equipment (UE) device. The base station sends a message to the UE device, which includes a unified TCI state. This TCI state supports two types of Quality Control Loop (QCL), specifically QCL-TypeA and QCL-TypeD. The abstract also mentions that there are other aspects described, but does not provide further details.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A message can be communicated from a base station to a user equipment (UE) device. In the message, a unified TCI state can be provided. The TCI state can support two QCL types, wherein the QCL types are based on QCL-TypeA and QCL-TypeD. Other aspects are described.
| |
| | | | |
| | ===CROSS-DIVISION DUPLEX SIGNALING ([[US Patent Application 17787691. CROSS-DIVISION DUPLEX SIGNALING simplified abstract|17787691]])=== | | ===CROSS-DIVISION DUPLEX SIGNALING ([[US Patent Application 17787691. CROSS-DIVISION DUPLEX SIGNALING simplified abstract|17787691]])=== |
| Line 515: |
Line 288: |
| | Wei Zeng | | Wei Zeng |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and computer programs for signaling cross-division duplex configurations. It involves a first device identifying a switch in bandwidth parts for a link with a second device. The first device then determines if a bandwidth band between these parts meets a threshold guard band. Based on this determination, the first device selectively decides to maintain or switch the bandwidth parts for the link.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and apparatus, including computer programs encoded on computer storage media, for signaling cross-division duplex configurations. One of the methods includes identifying, by a first device and for a first link with a second device, a switch in a first bandwidth part to a second bandwidth part for the first link, the first link associated with a second link having a third bandwidth part; determining, by the first device, whether a bandwidth band between the second bandwidth part and the third bandwidth part satisfies a threshold guard band; and selectively determining to maintain the third bandwidth part for the second link or to switch the third bandwidth part to a fourth bandwidth part for the second link using a result of the determination whether the bandwidth band between the second bandwidth part and the third bandwidth part satisfies the threshold guard band.
| |
| | | | |
| | ===Methods and Devices for Self-Interference Cancelation ([[US Patent Application 18312279. Methods and Devices for Self-Interference Cancelation simplified abstract|18312279]])=== | | ===Methods and Devices for Self-Interference Cancelation ([[US Patent Application 18312279. Methods and Devices for Self-Interference Cancelation simplified abstract|18312279]])=== |
| Line 529: |
Line 296: |
| | Feng Xue | | Feng Xue |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a communication circuit arrangement that includes various filters and circuits to estimate and cancel interference signals produced by amplifiers. The circuit uses different filters to estimate the interference signals and a cancellation circuit to subtract the combination of these signals from a received signal. The circuit also includes filter adaptation circuits that update the filters during different phases to improve their performance.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A communication circuit arrangement includes a signal path circuit to estimate, using a first kernel dimension filter and a first delay tap dimension filter, a first interference signal produced by a first amplifier. The signal path circuit further estimates, using a second kernel dimension filter and a second delay tap dimension filter, a second interference signal produced by a second amplifier. A cancellation circuit of the communication circuit arrangement may subtract a combination of the first interference signal and the second interference signal from a received signal to obtain a filtered signal, and one or more filter adaptation circuits may alternate between a kernel update phase and a delay update phase to update the first kernel dimension filter and the second kernel dimension filter during the kernel update phase, and update the first delay tap dimension filter and the second delay tap dimension filter during the delay update phase.
| |
| | | | |
| | ===JOINT CHANNEL ESTIMATION FOR MULTIPLE DOWNLINK TRANSMISSIONS ([[US Patent Application 18129672. JOINT CHANNEL ESTIMATION FOR MULTIPLE DOWNLINK TRANSMISSIONS simplified abstract|18129672]])=== | | ===JOINT CHANNEL ESTIMATION FOR MULTIPLE DOWNLINK TRANSMISSIONS ([[US Patent Application 18129672. JOINT CHANNEL ESTIMATION FOR MULTIPLE DOWNLINK TRANSMISSIONS simplified abstract|18129672]])=== |
| Line 543: |
Line 304: |
| | Chunxuan YE | | Chunxuan YE |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes mechanisms for a user equipment (UE) to perform joint channel estimation for multiple downlink transmissions. The UE reports its capability to perform joint channel estimation to a base station and receives a configuration for the estimation, which includes a time domain window (TDW) indicating the duration of the estimation. The UE then determines whether to perform the joint channel estimation. If it decides to proceed, it determines an actual time domain window within the TDW and performs the joint channel estimation for two physical downlink shared channel (PDSCH) transmissions using different demodulation reference signals (DMRS).
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Mechanisms are provided for a user equipment (UE) to perform joint channel estimation for multiple downlink transmissions. A method performed by a UE can include reporting, to a base station, a capability of the lIE to perform joint channel estimation, receiving a configuration for joint channel estimation, where the configuration includes a time domain window (TDW) indicating a duration of the joint channel estimation, and further determining whether to perform the joint channel estimation. Based on a determination to perform the joint channel estimation, the method can include determining an actual time domain window within the TDW for performing the joint channel estimation, and performing the joint channel estimation within the actual time domain window for a first physical downlink shared channel (PDSCH) transmission based on a first demodulation reference signals (DMRS), and a second PDSCH transmission based on a second DMRS.
| |
| | | | |
| | ===TECHNIQUES FOR SHARING DEVICE CAPABILITIES OVER A NETWORK OF USER DEVICES ([[US Patent Application 18216099. TECHNIQUES FOR SHARING DEVICE CAPABILITIES OVER A NETWORK OF USER DEVICES simplified abstract|18216099]])=== | | ===TECHNIQUES FOR SHARING DEVICE CAPABILITIES OVER A NETWORK OF USER DEVICES ([[US Patent Application 18216099. TECHNIQUES FOR SHARING DEVICE CAPABILITIES OVER A NETWORK OF USER DEVICES simplified abstract|18216099]])=== |
| Line 557: |
Line 312: |
| | Scott M. Marshall | | Scott M. Marshall |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes techniques for generating information about the capabilities of a cluster of devices in a network environment. The capabilities of each device in the cluster are determined, and then the intersection of these capabilities is calculated to generate cluster capability information. This information is then used to respond to requests from other devices in the network that require specific tasks to be performed.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Techniques are disclosed for generating device cluster capability information for a cluster of devices in a network environment. Capability information can specify capabilities of the devices in the cluster. A first user device can generate device capabilities for the first user device and obtain device capabilities for other devices in the cluster. The first user device can generate cluster capability information providing an intersection of the first set of device capabilities and device capabilities of the other user devices in the cluster. The first user device can obtain cluster capability information for other clusters in the network environment and receive a request from a service user device to perform a specific task. The first user device can transmit cluster capability information relating to a selected cluster that corresponds with the request.
| |
| | | | |
| | ===DIFFERENTIAL PRIVACY FOR MESSAGE TEXT CONTENT MINING ([[US Patent Application 18211973. DIFFERENTIAL PRIVACY FOR MESSAGE TEXT CONTENT MINING simplified abstract|18211973]])=== | | ===DIFFERENTIAL PRIVACY FOR MESSAGE TEXT CONTENT MINING ([[US Patent Application 18211973. DIFFERENTIAL PRIVACY FOR MESSAGE TEXT CONTENT MINING simplified abstract|18211973]])=== |
| Line 571: |
Line 320: |
| | Eric D. Friedman | | Eric D. Friedman |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a system and method for determining if a received message is spam while maintaining privacy. The message is encrypted and the client decrypts it, breaks it into smaller parts, and applies a privacy-preserving algorithm to these parts. The client then sends these encrypted message parts to a central server. The server collects these encrypted parts from multiple clients and returns aggregated information about the message parts to the client. Based on this information, the client can determine if the message is spam without revealing its content to the server.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Systems and methods are disclosed for determining whether a message received by a client may be spam, in a computing environment that preserves privacy. The message may be encrypted. A client invokes the methods when a message is received from a sender that is not known to the client. A client can decrypt the message, break the message into chunks, and apply a differentially private algorithm to the set of chunks. The client transmits the differentially private message sketches to an aggregation server. The aggregation server receives a large collection of such message sketches for a large plurality of clients. The aggregation server returns aggregated message chunk (e.g. frequency) information to the client to assist the client in determining whether the message may be spam. The client can process the message based on the determination without disclosing the message content to the server.
| |
| | | | |
| | ===DATA SYNCHRONIZATION ACROSS MULTIPLE DEVICES ([[US Patent Application 18216204. DATA SYNCHRONIZATION ACROSS MULTIPLE DEVICES simplified abstract|18216204]])=== | | ===DATA SYNCHRONIZATION ACROSS MULTIPLE DEVICES ([[US Patent Application 18216204. DATA SYNCHRONIZATION ACROSS MULTIPLE DEVICES simplified abstract|18216204]])=== |
| Line 585: |
Line 328: |
| | Joao Pedro De Almeida Forjaz de Lacerda | | Joao Pedro De Almeida Forjaz de Lacerda |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device that has a storage medium, processors, and memory. The memory stores synchronization data related to the interaction between the device and applications. The processors are responsible for executing instructions that retrieve the synchronization data and determine whether to use a peer-to-peer channel or a network-based channel for transmitting the data. The data is then sent from the device to remote devices through the chosen transport channel.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | One embodiment provides for an electronic device, comprising a non-transitory machine-readable medium to store instructions, one or more processors to execute the instructions, and a memory coupled to the one or more processors. The memory can be configured to store a set of synchronization data associated with interaction between the electronic device and one or more applications and instructions which, when executed by the one or more processors, configure the one or more processors to retrieve a set of synchronization data to be transmitted from the electronic device to select a transport channel from one of a peer-to-peer channel or a network-based channel and transmit the set of synchronization data from the electronic device to one or more remote devices via the selected transport channel.
| |
| | | | |
| | ===Head-Mounted Display Apparatus for Retaining a Portable Electronic Device with Display ([[US Patent Application 18333308. Head-Mounted Display Apparatus for Retaining a Portable Electronic Device with Display simplified abstract|18333308]])=== | | ===Head-Mounted Display Apparatus for Retaining a Portable Electronic Device with Display ([[US Patent Application 18333308. Head-Mounted Display Apparatus for Retaining a Portable Electronic Device with Display simplified abstract|18333308]])=== |
| Line 599: |
Line 336: |
| | Quin C. Hoellwarth | | Quin C. Hoellwarth |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a system and method for using a head-mounted display with a portable electronic device. The portable device can be physically attached to the head-mounted display, allowing the user to wear it on their head. The two devices can communicate and work together to enhance their features and eliminate redundant functions.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Head-mounted display systems and methods of operation that allow users to couple and decouple a portable electronic device such as a handheld portable electronic device with a separate head-mounted device (e.g., temporarily integrates the separate devices into a single unit) are disclosed. The portable electronic may be physically coupled to the head-mounted device such that the portable electronic device can be worn on the user's head. The portable electronic device may be operatively coupled to the head-mounted device such that the portable electronic device and head mounted device can communicate and operate with one another. Each device may be allowed to extend its features and/or services to the other device for the purpose of enhancing, increasing and/or eliminating redundant functions between the head-mounted de ice and the portable electronic device.
| |
| | | | |
| | ===VARIABLE AUDIO FOR AUDIO-VISUAL CONTENT ([[US Patent Application 18215371. VARIABLE AUDIO FOR AUDIO-VISUAL CONTENT simplified abstract|18215371]])=== | | ===VARIABLE AUDIO FOR AUDIO-VISUAL CONTENT ([[US Patent Application 18215371. VARIABLE AUDIO FOR AUDIO-VISUAL CONTENT simplified abstract|18215371]])=== |
| Line 613: |
Line 344: |
| | Shai Messingher Lang | | Shai Messingher Lang |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes various implementations of devices, systems, and methods that modify the audio of played back audio-visual (AV) content based on the context. The AV content includes both visual and audio components, with the audio consisting of multiple audio portions corresponding to the visual content. The implementation involves obtaining the audio-visual content of a physical environment, determining the context for presenting the content, and establishing a temporal relationship between the audio portions and the visual content based on this context. Finally, synthesized audio-visual content is presented according to this temporal relationship.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various implementations disclosed herein include devices, systems, and methods that that modify audio of played back AV content based on context in accordance with some implementations. In some implementations audio-visual content of a physical environment is obtained, and the audio-visual content includes visual content and audio content that includes a plurality of audio portions corresponding to the visual content. In some implementations, a context for presenting the audio-visual content is determined, and a temporal relationship between one or more audio portions of the plurality of audio portions and the visual content is determined based on the context. Then, synthesized audio-visual content is presented based on the temporal relationship.
| |
| | | | |
| | ===RAW SCALER WITH CHROMATIC ABERRATION CORRECTION ([[US Patent Application 18296951. RAW SCALER WITH CHROMATIC ABERRATION CORRECTION simplified abstract|18296951]])=== | | ===RAW SCALER WITH CHROMATIC ABERRATION CORRECTION ([[US Patent Application 18296951. RAW SCALER WITH CHROMATIC ABERRATION CORRECTION simplified abstract|18296951]])=== |
| Line 627: |
Line 352: |
| | Guy Cote | | Guy Cote |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes systems and methods for down-scaling image data. It explains that the method involves determining output pixel locations, selecting input pixels and filtering coefficients, filtering the input pixels, and correcting chromatic aberrations.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Systems and methods for down-scaling are provided. In one example, a method for processing image data includes determining a plurality of output pixel locations using a position value stored by a position register, using the current position value to select a center input pixel from the image data and selecting an index value, selecting a set of input pixels adjacent to the center input pixel, selecting a set of filtering coefficients from a filter coefficient lookup table using the index value, filtering the set of source input pixels to apply a respective one of the set of filtering coefficients to each of the set of source input pixels to determine an output value for the current output pixel at the current position value, and correcting chromatic aberrations in the set of source input pixels.
| |
| | | | |
| | ===WEARABLE INTERACTIVE AUDIO DEVICE ([[US Patent Application 18218433. WEARABLE INTERACTIVE AUDIO DEVICE simplified abstract|18218433]])=== | | ===WEARABLE INTERACTIVE AUDIO DEVICE ([[US Patent Application 18218433. WEARABLE INTERACTIVE AUDIO DEVICE simplified abstract|18218433]])=== |
| Line 641: |
Line 360: |
| | Benjamin G. Jackson | | Benjamin G. Jackson |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a wearable audio device, specifically an earbud, that is capable of detecting various inputs through sensors and structures. These inputs can include gestures and physical manipulations performed on or along the earbud. In response to these inputs, the earbud can change its outputs, such as adjusting the audio or providing haptic feedback. The earbud also includes a microphone that can register voice commands. These voice commands can be used to control the earbud in response to detected gestures or physical manipulations.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Embodiments are directed to a wearable audio device, such as an earbud. The earbud may be configured to detect input using various sensors and structures. For example, the earbud may be configured to detect gestures, physical manipulations, and so forth performed along or on the earbud. In response to the detected inputs, the earbud may be configured to change various outputs, such as an audio output or a haptic output of the device. The earbud may also include a microphone to register voice commands. In some cases, the microphone may be used to control the earbud using the registered voice command in response to one or more detected gestures or physical manipulations.
| |
| | | | |
| | ===HEADPHONES WITH A CURVED MESH HEADBAND ([[US Patent Application 18212133. HEADPHONES WITH A CURVED MESH HEADBAND simplified abstract|18212133]])=== | | ===HEADPHONES WITH A CURVED MESH HEADBAND ([[US Patent Application 18212133. HEADPHONES WITH A CURVED MESH HEADBAND simplified abstract|18212133]])=== |
| Line 655: |
Line 368: |
| | Dustin A. Hatfield | | Dustin A. Hatfield |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract discusses different features that can be used in headphone designs to improve user comfort and control. It mentions sensor configurations and electronic component positions as well. The abstract also mentions user convenience features such as detachable cushions and automatic detection of when the headphones are put on or taken off.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | This disclosure includes several different features suitable for use in circumaural and supra-aural headphones designs. Designs that enhance user comfort and improve user control of the headphones are discussed. Various sensor configurations and electronic component positions are also discussed. User convenience features that include detachable cushions and automatically detecting the donning and doffing of headphones are also discussed.
| |
| | | | |
| | ===Force-Activated Earphone ([[US Patent Application 18216219. Force-Activated Earphone simplified abstract|18216219]])=== | | ===Force-Activated Earphone ([[US Patent Application 18216219. Force-Activated Earphone simplified abstract|18216219]])=== |
| Line 669: |
Line 376: |
| | Nahid Harjee | | Nahid Harjee |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes an earphone that has a speaker housing and a stem with an input surface. Inside the stem, there is a conductive object and a flexible circuit. The flexible circuit has a force sensor electrode and a touch sensor electrode. The earphone also has a controller that can detect changes in capacitance through the force sensor electrode, allowing it to determine the amount of force applied to the input surface.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | An earphone includes a speaker housing; a speaker positioned in the speaker housing; a stem extending from the speaker housing, the stem defining an input surface; a conductive object disposed within the stem; a flexible circuit positioned between the stem and the conductive object; a member positioned between the flexible circuit and the conductive object operable to allow the flexible circuit to move with respect to the stem; a force sensor electrode disposed within the flexible circuit; and a controller operable to determine an input to the earphone using a change in capacitance detected using the force sensor electrode, the change in capacitance corresponding to a non-binary amount of a force applied to the input surface. In some examples, the earphone further includes a touch sensor electrode disposed within the flexible circuit.
| |
| | | | |
| | ===SYSTEMS AND METHODS FOR SUPPORTING EVOLVING BAND REGULATIONS ([[US Patent Application 18095376. SYSTEMS AND METHODS FOR SUPPORTING EVOLVING BAND REGULATIONS simplified abstract|18095376]])=== | | ===SYSTEMS AND METHODS FOR SUPPORTING EVOLVING BAND REGULATIONS ([[US Patent Application 18095376. SYSTEMS AND METHODS FOR SUPPORTING EVOLVING BAND REGULATIONS simplified abstract|18095376]])=== |
| Line 683: |
Line 384: |
| | Anatoliy S Ioffe | | Anatoliy S Ioffe |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a system where a base station sends important information to user equipment based on the network coverage detected by the equipment. This information includes flags that indicate whether the equipment should follow an older or newer regulation for operating on a specific frequency band. The equipment then informs the base station about its support for the different regulations. Based on this information, the base station configures the resources for communication between the equipment and the base station on the frequency band.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A base station sends system information to user equipment based on the user equipment detecting network coverage provided by the base station. The system information may include one or more network signaling flags indicative of a legacy regulation and an updated regulation (or a legacy version of a regulation and an updated version of the regulation) for operating on a frequency band. The user equipment transmits an indication to the base station as to whether it supports the legacy regulation and/or the updated regulation. The base station configures uplink and/or downlink resources on the frequency band for the user equipment based on the regulation indicated. The user equipment and the base station then communicate using the configured resources on the frequency band.
| |
| | | | |
| | ===Security Improvements in SL Unicast ([[US Patent Application 17995369. Security Improvements in SL Unicast simplified abstract|17995369]])=== | | ===Security Improvements in SL Unicast ([[US Patent Application 17995369. Security Improvements in SL Unicast simplified abstract|17995369]])=== |
| Line 697: |
Line 392: |
| | Yuqin CHEN | | Yuqin CHEN |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a technology that involves two user devices (UEs) connected through a sidelink (SL) connection. The first UE sends a request to the second UE to check the number of data transmissions between them. The second UE responds with its own count. The technology then calculates the difference between the two counts and if it exceeds a certain threshold, the SL connection between the two UEs is released.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | The exemplary embodiments relate to a computer-readable storage medium, a device, an integrated circuit and a method that perform operations related to a first user equipment (UE) configured with a sidelink (SL) connection with a second UE. The operations include generating an SL counter check request including at least a first count for data transmissions from the first UE to the second UE as determined by the first UE. The operations further include transmitting the request to the second UE and receiving a counter check response to the request, the response comprising at least a second count for data transmissions from the first UE to the second UE as determined by the second UE. The operations further include determining a first difference between the first count and the second count and, when the first difference exceeds a threshold, releasing the SL connection with the second UE.
| |
| | | | |
| | ===BROKERED SERVICE DISCOVERY AND CONNECTION MANAGEMENT ([[US Patent Application 17728799. BROKERED SERVICE DISCOVERY AND CONNECTION MANAGEMENT simplified abstract|17728799]])=== | | ===BROKERED SERVICE DISCOVERY AND CONNECTION MANAGEMENT ([[US Patent Application 17728799. BROKERED SERVICE DISCOVERY AND CONNECTION MANAGEMENT simplified abstract|17728799]])=== |
| Line 711: |
Line 400: |
| | Charles W Duyk | | Charles W Duyk |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes the role of a discovery broker in helping devices find and connect with each other in environments with many devices or segmented networks. This can be done using a machine-readable image, digital wallet data, or a domain name system. The abstract does not provide any specific details or claims about the effectiveness or benefits of using a discovery broker.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A discovery broker may facilitate discovering and connecting devices, such as a sender device and receiver device, in a dense environment and/or a network with segmentation. The sender and receiver devices may be connected via the discovery broker based on a machine-readable image including connectivity information, digital wallet data including the connectivity information, or a domain name system.
| |
| | | | |
| | ===APPARATUS, METHOD FOR USER EQUIPMENT, USER EQUPMENT AND METHOD FOR NETWORK ELEMENT ([[US Patent Application 17439559. APPARATUS, METHOD FOR USER EQUIPMENT, USER EQUPMENT AND METHOD FOR NETWORK ELEMENT simplified abstract|17439559]])=== | | ===APPARATUS, METHOD FOR USER EQUIPMENT, USER EQUPMENT AND METHOD FOR NETWORK ELEMENT ([[US Patent Application 17439559. APPARATUS, METHOD FOR USER EQUIPMENT, USER EQUPMENT AND METHOD FOR NETWORK ELEMENT simplified abstract|17439559]])=== |
| Line 725: |
Line 408: |
| | Qiming LI | | Qiming LI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes an apparatus that includes a processor circuitry. This apparatus is designed to enable a user equipment (UE) to perform certain functions. One of these functions is encoding a message that will be sent to a network (NW). This message contains information about the capabilities of the UE, including whether it supports concurrent measurement gap (MG) patterns. Once the message is encoded, the UE will transmit it to the NW.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | An apparatus is provided. The apparatus comprises: processor circuitry configured to cause a user equipment (UE) to: encode a message for transmission to a network (NW) including a UE capability information that includes an indication of whether concurrent measurement gap (MG) patterns are supported by the UE; and transmit the message to the NW.
| |
| | | | |
| | ===DIRECT SCELL ACTIVATION DURING HANDOVER ([[US Patent Application 17593682. DIRECT SCELL ACTIVATION DURING HANDOVER simplified abstract|17593682]])=== | | ===DIRECT SCELL ACTIVATION DURING HANDOVER ([[US Patent Application 17593682. DIRECT SCELL ACTIVATION DURING HANDOVER simplified abstract|17593682]])=== |
| Line 739: |
Line 416: |
| | Jie Cui | | Jie Cui |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for a user equipment (UE) to perform a handover from a source cell to a target cell. The UE receives a handover command from the source cell, which includes an activation indication for a secondary cell (SCell) in the target cell. The UE then generates a message to initiate a random access procedure with the target cell. In response, the UE receives a second message from the target cell, which includes a timing advance (TA) command.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Provided is a method for a user equipment (UE), that includes: obtaining, from a source cell, a handover command for handover from the source cell to a target cell, the handover command including activation indication for an activation of a secondary cell (SCell) of the target cell; generating a first message for transmission to the target cell, wherein the first message is used for initiating a random access procedure; obtaining a second message from the target cell in response to the first message, wherein the second message comprises a timing advance (TA) command.
| |
| | | | |
| | ===POWER ALLOCATION IN NEW RADIO AND LONG TERM EVOLUTION DUAL CONNECTIVITY ([[US Patent Application 18122369. POWER ALLOCATION IN NEW RADIO AND LONG TERM EVOLUTION DUAL CONNECTIVITY simplified abstract|18122369]])=== | | ===POWER ALLOCATION IN NEW RADIO AND LONG TERM EVOLUTION DUAL CONNECTIVITY ([[US Patent Application 18122369. POWER ALLOCATION IN NEW RADIO AND LONG TERM EVOLUTION DUAL CONNECTIVITY simplified abstract|18122369]])=== |
| Line 753: |
Line 424: |
| | Gang Xiong | | Gang Xiong |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes various methods, devices, storage media, and systems that are used to determine dynamic power sharing in a dual connectivity network. It suggests that there may be other embodiments not mentioned in the abstract.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Embodiments of the present disclosure describe methods, apparatuses, storage media, and systems for determining dynamic power sharing in a dual connectivity network. Other embodiments may be described and claimed.
| |
| | | | |
| | ===MEASUREMENT OPPORTUNITY SHARING FOR LAYER ONE MEASUREMENTS ([[US Patent Application 18136251. MEASUREMENT OPPORTUNITY SHARING FOR LAYER ONE MEASUREMENTS simplified abstract|18136251]])=== | | ===MEASUREMENT OPPORTUNITY SHARING FOR LAYER ONE MEASUREMENTS ([[US Patent Application 18136251. MEASUREMENT OPPORTUNITY SHARING FOR LAYER ONE MEASUREMENTS simplified abstract|18136251]])=== |
| Line 767: |
Line 432: |
| | Yang Tang | | Yang Tang |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract above describes a technology that allows for the sharing of measurement opportunities in wireless networks. This technology includes devices, components, systems, and methods that enable the sharing of Layer 1 measurements.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | The present application relates to devices and components including apparatus, systems, and methods for sharing Layer 1 measurement opportunities in wireless networks.
| |
| | | | |
| | ===TRANSPORT BLOCK OVER MULTIPLE SLOTS FOR DOWNLINK TRANSMISSIONS ([[US Patent Application 18129658. TRANSPORT BLOCK OVER MULTIPLE SLOTS FOR DOWNLINK TRANSMISSIONS simplified abstract|18129658]])=== | | ===TRANSPORT BLOCK OVER MULTIPLE SLOTS FOR DOWNLINK TRANSMISSIONS ([[US Patent Application 18129658. TRANSPORT BLOCK OVER MULTIPLE SLOTS FOR DOWNLINK TRANSMISSIONS simplified abstract|18129658]])=== |
| Line 781: |
Line 440: |
| | Chunxuan YE | | Chunxuan YE |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes mechanisms for a user equipment (UE) to receive a physical downlink shared channel (PDSCH) transmission of a transport block (TB) over multiple slots. The UE receives a configuration for the PDSCH transmission, which includes information about the number of slots involved. The UE then determines the size of the transport block and allocates the necessary number of slots to support the transmission. If the size of the transport block meets certain criteria, the UE receives and decodes the PDSCH transmission.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Mechanisms are provided for a user equipment (UE) to receive physical downlink shared channel (PDSCH) transmissions of a transport block (TB) over multiple slots. The UE can receive a configuration for a PDSCH transmission of a TB over multiple slots (TBoMS), such as a first number of slots, through a downlink from a base station. The configuration can include an indication of the first number of slots. The UE can further determine a transport block size (TBS) for the PDSCH transmission, and allocate a second number of slots used by the UE to support the PDSCH transmission. Based on the TBS for the PDSCH transmission satisfying a condition, the processor can be configured to receive the PDSCH transmission of the TB over the second number of slots, and decode the PDSCH transmission received.
| |
| | | | |
| | ===SIGNALING FOR POWER CLASS FALLBACK WITH TRANSMISSION DIVERSITY ([[US Patent Application 18079190. SIGNALING FOR POWER CLASS FALLBACK WITH TRANSMISSION DIVERSITY simplified abstract|18079190]])=== | | ===SIGNALING FOR POWER CLASS FALLBACK WITH TRANSMISSION DIVERSITY ([[US Patent Application 18079190. SIGNALING FOR POWER CLASS FALLBACK WITH TRANSMISSION DIVERSITY simplified abstract|18079190]])=== |
| Line 795: |
Line 448: |
| | Daniel Popp | | Daniel Popp |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technology that allows user equipment (such as mobile devices) to indicate whether they can operate in a transmission diversity mode or a single transmission mode for a lower power class. If the user equipment cannot fall back to the single transmission mode, the base station configures the uplink resources based on the transmission diversity mode. However, if the user equipment can fall back to the single transmission mode, it informs the base station, which then configures the uplink resources accordingly for both modes.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Embodiments herein enable user equipment to indicate that it may operate in a transmission diversity mode, but may fall back to a single transmission mode for a lower power class. In particular, if the user equipment will not fall back to a single transmission mode for a lower power class, then the base station configures uplink resources for the user equipment based on the user equipment operating in the transmission diversity mode. Otherwise, the user equipment sends an indication to the base station that it will use the single transmission mode for the lower power class. The base station then configures uplink resources for the user equipment based on the user equipment operating in the transmission diversity mode for the higher power class, and configures the uplink resources for the user equipment based on the user equipment operating in the single transmission mode for the lower power class.
| |
| | | | |
| | ===Dynamic Measurement Gap Operation ([[US Patent Application 17593840. Dynamic Measurement Gap Operation simplified abstract|17593840]])=== | | ===Dynamic Measurement Gap Operation ([[US Patent Application 17593840. Dynamic Measurement Gap Operation simplified abstract|17593840]])=== |
| Line 809: |
Line 456: |
| | Qiming Li | | Qiming Li |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes wireless devices and methods for indicating and configuring measurement gaps (MG) in wireless communication. The wireless device can indicate its ability to support a semi-persistent (SP) MG configuration to a wireless station. It can receive the SP MG configuration and a message to activate it from the wireless station. In response, the device performs target carrier frequency measurements according to the activated SP MG configuration. The device can also receive a message to deactivate the SP MG configuration, upon which it discontinues the target carrier frequency measurements. Additionally, the device can indicate its ability to support an aperiodic (AP) MG configuration, which does not require explicit deactivation by the wireless station.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Aspects herein relate to wireless devices, circuits, and methods for indicating, by a wireless device, to a wireless station, an ability to support semi-persistent (SP) measurement gap (MG) configuration; receiving, from the wireless station, a SP MG configuration; receiving, from the wireless station, a message to activate the SP MG configuration; performing, in response to receiving the message to activate the SP MG configuration, a target carrier frequency measurement, wherein the target carrier frequency measurement is performed in accordance with the activated SP MG configuration; receiving from the wireless station, a message to deactivate the SP MG configuration; and discontinuing, in response to receiving the message to deactivate the SP MG configuration, the performance of the target carrier frequency measurement. In other aspects, the wireless device may indicate, to the wireless station, an ability to support aperiodic (AP) MG configuration, which does not require explicit deactivation by the wireless station.
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| | | | |
| | ===User Equipment Configuration for SIB and MIB Decoding ([[US Patent Application 18303857. User Equipment Configuration for SIB and MIB Decoding simplified abstract|18303857]])=== | | ===User Equipment Configuration for SIB and MIB Decoding ([[US Patent Application 18303857. User Equipment Configuration for SIB and MIB Decoding simplified abstract|18303857]])=== |
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| | Tudor NINACS | | Tudor NINACS |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a user equipment (UE) in a network that can receive system information and messages from a cell. The UE can determine scheduling information for the system information without decoding a specific control channel and then decode the system information using the scheduling information. Additionally, the UE can receive a message and additional information from a source other than the cell. It can determine a specific portion of the message using the additional information and then decode the entire message based on that determined portion.
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| − |
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| − | '''Abstract'''
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| − | A user equipment (UE) is configured to receive, from a cell of a network, a system information block (SIB), determine values for scheduling information for the SIB without decoding a Physical Downlink Control Channel (PDCCH) corresponding to the SIB and decode the SIB using the scheduling information. A UE is also configured to receive, from a cell of a network, a message to be decoded, receive, from a source different from the cell, additional information related to a portion of the message, determine the portion of the message using the additional information and decode the message based at least in part on the determined portion of the message.
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| | | | |
| | ===Repetition Indication for Physical Uplink Control Channel Enhancement ([[US Patent Application 17593742. Repetition Indication for Physical Uplink Control Channel Enhancement simplified abstract|17593742]])=== | | ===Repetition Indication for Physical Uplink Control Channel Enhancement ([[US Patent Application 17593742. Repetition Indication for Physical Uplink Control Channel Enhancement simplified abstract|17593742]])=== |
| Line 837: |
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| | Seyed Ali Akbar Fakoorian | | Seyed Ali Akbar Fakoorian |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a wireless node that consists of a radio and a processor. The processor is responsible for determining the number of repetitions needed to transmit a specific type of message called a physical uplink control channel (PUCCH) message. The radio then transmits this information to a wireless device and receives the PUCCH message from the device based on the determined number of repetitions.
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| − |
| |
| − | '''Abstract'''
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| − | A wireless node comprising a radio, and a processor operably coupled to the radio, wherein the processor is configured to determine a number of physical uplink control channel (PUCCH) resource repetitions for transmitting a PUCCH message; and wherein the radio is configured to transmit an indication, to a wireless device, of the number of PUCCH repetitions for a PUCCH message, and receive repetitions of the PUCCH message from the wireless device based on the number of PUCCH repetitions.
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| | | | |
| | ===METHODS, SYSTEM, AND APPARATUS FOR UPLINK RESOURCE MUTING OPERATION IN WIRELESS COMMUNICATION ([[US Patent Application 17787820. METHODS, SYSTEM, AND APPARATUS FOR UPLINK RESOURCE MUTING OPERATION IN WIRELESS COMMUNICATION simplified abstract|17787820]])=== | | ===METHODS, SYSTEM, AND APPARATUS FOR UPLINK RESOURCE MUTING OPERATION IN WIRELESS COMMUNICATION ([[US Patent Application 17787820. METHODS, SYSTEM, AND APPARATUS FOR UPLINK RESOURCE MUTING OPERATION IN WIRELESS COMMUNICATION simplified abstract|17787820]])=== |
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| | Dawei Zhang | | Dawei Zhang |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a technology that allows wireless devices to mute certain resource elements used for communication. The method involves the device obtaining configuration data that indicates the frequency density of muted resource blocks. Based on this information, the device identifies a group of resource elements within the muted blocks and determines a muted resource pattern (MRP) for the scheduled transmission. The device then transmits the allocation of resource blocks for the transmission without using the identified group of resource elements in the MRP.
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| − |
| |
| − | '''Abstract'''
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| − | Systems, methods, and apparatuses for muting resource elements used for wireless communications is disclosed. In one aspect, a method can include actions of obtaining, by user equipment (UE), configuration data that indicates a frequency density of muted resource blocks, identifying, by the UE and based on a value of an antenna ports information element in downlink control information (DCI) that schedules a PUSCH transmission, a group of resource elements within the muted resource blocks, determining, by the UE, a muted resource pattern (MRP) within the RBs for the scheduled PUSCH based on the frequency density of the muted resource blocks and the identified group of resource elements, and transmitting, by the UE, an allocation of RBs for PUSCH without transmission on the identified group of resource elements of the determined MRP.
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| | | | |
| | ===Configured Grant based Uplink Transmissions in Wireless Communication ([[US Patent Application 17995432. Configured Grant based Uplink Transmissions in Wireless Communication simplified abstract|17995432]])=== | | ===Configured Grant based Uplink Transmissions in Wireless Communication ([[US Patent Application 17995432. Configured Grant based Uplink Transmissions in Wireless Communication simplified abstract|17995432]])=== |
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| | Hong HE | | Hong HE |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a method for determining and enabling code block group (CBG) based transmissions in an unlicensed spectrum. The method involves transmitting configured grants that include CBG based transmissions and transport block (TB) based transmissions. The method also involves receiving downlink feedback information (DFI) in a specific format called downlink control information (DCI), which includes a hybrid automatic repeating request (HARQ) bitmap for the TB based transmissions and a HARQ bitmap for the CBG based transmissions. These embodiments can be implemented in various forms such as a computer storage medium, a user equipment (UE), or an integrated circuit.
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| − |
| |
| − | '''Abstract'''
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| − | The exemplary embodiments relate to determining that code block group (CBG) based transmissions are enabled, transmitting, via an unlicensed spectrum, configured grants comprising one or more CBG based transmissions and one or more transport block (TB) based transmissions and receiving a downlink feedback information (DFI) downlink control information (DCI) format, wherein the DFI DCI format comprises a hybrid automatic repeating request (HARQ) bitmap corresponding to the TB based transmissions and a HARQ bitmap corresponding to the CBG based transmissions. The exemplary embodiments may be implemented in a computer readable storage medium, a user equipment (UE) or an integrated circuit.
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| | | | |
| | ===TRANSMIT POWER CONTROL (TPC) FOR UPLINK TRANSMISSIONS DURING A TIME DOMAIN WINDOW (TDW) ([[US Patent Application 18124449. TRANSMIT POWER CONTROL (TPC) FOR UPLINK TRANSMISSIONS DURING A TIME DOMAIN WINDOW (TDW) simplified abstract|18124449]])=== | | ===TRANSMIT POWER CONTROL (TPC) FOR UPLINK TRANSMISSIONS DURING A TIME DOMAIN WINDOW (TDW) ([[US Patent Application 18124449. TRANSMIT POWER CONTROL (TPC) FOR UPLINK TRANSMISSIONS DURING A TIME DOMAIN WINDOW (TDW) simplified abstract|18124449]])=== |
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| | Chunhai YAO | | Chunhai YAO |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a user equipment (UE) that is capable of implementing transmit power control (TPC) commands during a specific time period that includes multiple physical uplink shared channel (PUSCH) transmissions. The UE can receive a configuration from the base station, which allows it to support a power control mode and measure the timeline related to a PUSCH transmission. During the specified time period, the UE can receive a set of TPC commands and determine if any of these commands satisfy a time constraint based on the timeline measurement. If a TPC command meets the time constraint, the UE determines an effective TPC command for the set based on this information. Additionally, the UE determines an effective delay for the effective TPC command based on the timeline measurement. Finally, the UE applies the effective TPC command to a PUSCH transmission based on the effective delay.
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| − |
| |
| − | '''Abstract'''
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| − | A user equipment (UE) is provided to implement a set of transmit power control (TPC) commands during a time domain window (TDW) including multiple physical uplink shared channel (PUSCH) transmissions. The UE can receive a configuration from the base station to configure the UE to support a power control mode and a timeline measurement related to a PUSCH transmission. The UE can receive a set of TPC commands during the TDW, determine whether a TPC command of the set of TPC commands satisfies a time constraint based on the timeline measurement, determine an effective TPC command for the set of TPC commands based on one or more TPC commands satisfying the time constraint, determine an effective delay for the effective TPC command based on the timeline measurement, and further apply the effective TPC command to a PUSCH transmission determined based on the effective delay of the effective TPC command.
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| | | | |
| | ===DEFAULT BEAMS FOR PDSCH, CSI-RS, PUCCH AND SRS ([[US Patent Application 17598012. DEFAULT BEAMS FOR PDSCH, CSI-RS, PUCCH AND SRS simplified abstract|17598012]])=== | | ===DEFAULT BEAMS FOR PDSCH, CSI-RS, PUCCH AND SRS ([[US Patent Application 17598012. DEFAULT BEAMS FOR PDSCH, CSI-RS, PUCCH AND SRS simplified abstract|17598012]])=== |
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| | Yushu Zhang | | Yushu Zhang |
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| − |
| |
| − | '''Brief explanation'''
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| − | The abstract describes a method and device for configuring default beams in wireless communication. The User Equipment (UE) receives configuration information from a base station to set up a default beam for the physical downlink shared channel (PDSCH). This default beam is used when the time difference between receiving downlink control information (DCI) in the scheduling physical downlink control channel (PDCCH) and the corresponding PDSCH is below a certain threshold. The UE configures the default beam based on the received information and a monitored control resource set (CORESET) with the lowest CORESET identifier (ID) from a set of CORESETs in the same bandwidth part (BWP). The UE then receives a transmission using the default beam.
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| − |
| |
| − | '''Abstract'''
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| − | A method and apparatus configuring default beams are described. In some embodiments, the method of wireless communication at a User Equipment (UE) comprises: receiving, from a base station, configuration information for configuring a default beam for the physical downlink shared channel (PDSCH) to use on condition that an offset between reception of downlink control information (DCI) in the scheduling physical downlink control channel (PDCCH) and corresponding PDSCH is less than a threshold and at least one Transmission Configuration Indicator (ICI) states includes spatial receiving parameters for configuring a quasi-co-location; configuring, by the UE, a default beam configuration for the PDSCH based on the configuration information and a monitored control resource set (CORESET) with a lowest CORESET identifier (ID) from among a set of CORESETs in a latest slot in a same bandwidth part (BWP), wherein at least one CORSET of the set of CORESETs includes more than one TCI state; and receiving a transmission using the default beam.
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| | | | |
| | ===Type-2 HARQ-ACK Codebook for Multi-Cell Scheduling DCI ([[US Patent Application 18299867. Type-2 HARQ-ACK Codebook for Multi-Cell Scheduling DCI simplified abstract|18299867]])=== | | ===Type-2 HARQ-ACK Codebook for Multi-Cell Scheduling DCI ([[US Patent Application 18299867. Type-2 HARQ-ACK Codebook for Multi-Cell Scheduling DCI simplified abstract|18299867]])=== |
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| | Sigen YE | | Sigen YE |
| | | | |
| − |
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| − | '''Brief explanation'''
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| − | The abstract describes a system where a user device receives instructions from a network's base station. These instructions include information about multiple data channels that are being scheduled for the user device. The user device then creates a codebook for acknowledging the receipt of data based on the number of scheduled channels. This codebook is then transmitted back to the base station using an uplink channel.
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| − |
| |
| − | '''Abstract'''
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| − | A user equipment (UE) is configured to receive at least a first downlink control information (DCI) from a base station of a network, the first DCI scheduling multiple physical downlink shared channels (PDSCH) across multiple cells of the UE, construct a Type 2 hybrid automatic repeat request (HARQ) acknowledgement (HARQ-ACK) codebook based at least on a number of DCI scheduling PDSCH corresponding to the Type 2 HARQ-ACK codebook and transmit the Type 2 HARQ-ACK codebook feedback in a physical uplink channel.
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| | | | |
| | ===Downlink Control Information (DCI) Transmission and Reception ([[US Patent Application 18302355. Downlink Control Information (DCI) Transmission and Reception simplified abstract|18302355]])=== | | ===Downlink Control Information (DCI) Transmission and Reception ([[US Patent Application 18302355. Downlink Control Information (DCI) Transmission and Reception simplified abstract|18302355]])=== |
| Line 921: |
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| | Onurcan ISCAN | | Onurcan ISCAN |
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| − |
| |
| − | '''Brief explanation'''
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| − | The abstract describes a user equipment (UE) that is designed to receive and process control channel configuration information. This information includes repetitions for control channel candidates that contain important data for the UE. The UE is also able to receive and decode a shared channel that contains additional control information. The decoding process is based on the configuration information received by the UE.
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| − |
| |
| − | '''Abstract'''
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| − | A user equipment (UE) is configured to receive physical downlink control channel (PDCCH) configuration information comprising repetitions for PDCCH candidates that comprise Downlink Control Information (DCI), receive PDCCH candidates and decode the PDCCH candidates based on the PDCCH configuration information. A UE is configured to receive semi-persistent scheduling (SPS) configuration information for a physical downlink shared channel (PDSCH), receive a PDSCH comprising Downlink Control Information (DCI) and decode the PDSCH comprising the DCI based on the SPS configuration information.
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| | ===METHODS AND APPARATUS FOR TIME-DOMAIN PRACH RESOURCE DETERMINATION IN WIRELESS COMMUNICATION ([[US Patent Application 17598061. METHODS AND APPARATUS FOR TIME-DOMAIN PRACH RESOURCE DETERMINATION IN WIRELESS COMMUNICATION simplified abstract|17598061]])=== | | ===METHODS AND APPARATUS FOR TIME-DOMAIN PRACH RESOURCE DETERMINATION IN WIRELESS COMMUNICATION ([[US Patent Application 17598061. METHODS AND APPARATUS FOR TIME-DOMAIN PRACH RESOURCE DETERMINATION IN WIRELESS COMMUNICATION simplified abstract|17598061]])=== |
| Line 935: |
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| | Huaning Niu | | Huaning Niu |
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| − |
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| − | '''Brief explanation'''
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| − | The abstract describes methods and devices that improve the transmission of a Physical Random Access Channel (PRACH) for communications beyond 52.6 GHz. This involves receiving PRACH configuration information that includes details about the format of the PRACH preamble, which is used to enhance cell coverage. The information may include a new PRACH preamble format based on a short sequence PRACH preamble format. The PRACH preamble is then transmitted to a base station using the specified format. The short sequence PRACH preamble format is repeated over two consecutive time-domain RACH occasions (ROs).
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| − |
| |
| − | '''Abstract'''
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| − | Disclosed are methods and apparatus to enhance RACH transmission for beyond 52.6 GHz communications. A Physical Random Access Channel (PRACH) configuration information including an indication of a PRACH preamble format for a predefined subcarrier spacing (SCS) to enhance cell coverage may be received. The PRACH configuration information may include a new PRACH preamble format in a time-domain based on a short sequence PRACH preamble format. Additionally, the PRACH preamble may be transmitted using the PRACH preamble format over a PRACH to a base station (BS). The short sequence PRACH preamble format may be repeated over two consecutive time-domain RACH occasions (ROs).
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| | | | |
| | ===Downlink Radio Resource Control Message Transmission in 2-Step Random Access ([[US Patent Application 18342584. Downlink Radio Resource Control Message Transmission in 2-Step Random Access simplified abstract|18342584]])=== | | ===Downlink Radio Resource Control Message Transmission in 2-Step Random Access ([[US Patent Application 18342584. Downlink Radio Resource Control Message Transmission in 2-Step Random Access simplified abstract|18342584]])=== |
| Line 949: |
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| | Fangli Xu | | Fangli Xu |
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| − |
| |
| − | '''Brief explanation'''
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| − | The abstract describes the invention of devices, systems, and methods that allow wireless devices to perform 2-step random access procedures. These procedures involve transmitting and receiving downlink connection configuration information, such as a radio resource control message, in a more efficient manner. The purpose of this invention is to improve the overall performance and reliability of wireless communication.
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| − |
| |
| − | '''Abstract'''
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| − | Apparatuses, systems, and methods for a wireless device to perform 2-step random access procedures. The disclosure identifies techniques for transmitting and receiving downlink connection configuration information, such as a radio resource control message, in a 2-step random access procedure.
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| | | | |
| | ===Electronic Devices with Expandable Displays ([[US Patent Application 18301911. Electronic Devices with Expandable Displays simplified abstract|18301911]])=== | | ===Electronic Devices with Expandable Displays ([[US Patent Application 18301911. Electronic Devices with Expandable Displays simplified abstract|18301911]])=== |
| Line 962: |
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| | | | |
| | Tatsuya Sano | | Tatsuya Sano |
| − |
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| − |
| |
| − | '''Brief explanation'''
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| − | This abstract describes an electronic device with an expandable display that can be expanded and retracted. In the retracted state, a part of the display is visible on the outside of the device, while another part is hidden inside the device. When the device is expanded, the hidden part of the display rolls out onto the front of the device, increasing the size of the display. The frame of the device has a solid metal portion that supports the visible part of the display, and a flexible portion made of parallel metal strips that supports the hidden part of the display.
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| − |
| |
| − | '''Abstract'''
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| − | An electronic device may have a housing, an expandable display mounted to the housing, and a frame for supporting the expandable display. The housing, display, and frame may be operable in expanded and retracted states. In the retracted state, an exposed portion of the display is viewable on the outside of the device, while a retractable portion of the display is enclosed within the housing and hidden behind the exposed portion of the display. As the device transitions from the retracted state to the expanded state, the retractable portion of the display may roll around an axis onto the front of the device to increase the size of the viewable display area. The frame may have a rigid portion that is mostly solid metal supporting the exposed portion of the display and a flexible portion formed from parallel strips of metal supporting the retractable portion of the display.
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