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| | ==Patent applications for Apple Inc. on October 12th, 2023== | | ==Patent applications for Apple Inc. on October 12th, 2023== |
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| − | ===HEARTRATE TRACKING TECHNIQUES (18210826)=== | + | ===HEARTRATE TRACKING TECHNIQUES ([[US Patent Application 18210826. HEARTRATE TRACKING TECHNIQUES simplified abstract|18210826]])=== |
| | + | |
| | + | |
| | + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Christian Schroeder | | Christian Schroeder |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technique that involves tracking the motion and physical state of a user wearing a wearable device using various sensors. It also involves determining whether an application on the device has been launched. Based on the user's motion, physical state, and application usage, the technique determines an action category for the user. Additionally, it collects and categorizes the user's heartrate data based on the determined action category.
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| | | | |
| − | '''Abstract'''
| + | ===Group Sharing of a Secure Digital Car Key ([[US Patent Application 17716817. Group Sharing of a Secure Digital Car Key simplified abstract|17716817]])=== |
| − | An example technique may include tracking motion of a user wearing the wearable device using at least first sensors of one or more sensors of the wearable device. The technique may also include tracking a physical state of the user using at least second sensors of the one or more sensors of the wearable device. The technique may also include determining whether an application of the wearable device has been launched. The technique may also include determining an action category of the user based at least in part on at least one of the motion of the user, the physical state of the user, or whether the application has been launched. The technique may also include collecting heartrate data of the user. The technique may also include categorizing the heartrate data based at least in part on the determined action category.
| + | |
| | | | |
| − | ===Group Sharing of a Secure Digital Car Key (17716817)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Matthias Lerch | | Matthias Lerch |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a process where one electronic device can invite another electronic device to share a digital car key. The invitation includes information for creating a copy of the digital car key on the second device. The first device then receives a message accepting the invitation, which includes a certificate associated with the copied car key on the second device. The first device provides an approved version of the certificate with a digital signature from the user. Finally, the first device instructs a computer to share the digital car key with a set of electronic devices associated with a second user of the second device.
| |
| | | | |
| − | '''Abstract'''
| + | ===Automatic Car-Key Pairing Based on Wireless Pairing ([[US Patent Application 17716843. Automatic Car-Key Pairing Based on Wireless Pairing simplified abstract|17716843]])=== |
| − | During operation, an electronic device may provide, to a second electronic device, an invitation to share a digital car key associated with a user of the electronic device and a vehicle, where the invitation includes information for creating another instance of the digital car key on the second electronic device. Then, the electronic device may receive, from the second electronic device, a message accepting the invitation, where the message includes a certificate associated with the other instance of the digital car key on the second electronic device. Moreover, the electronic device may provide, to the second electronic device, an approved version of the certificate with a digital signature of the user. Next, the electronic device may provide, to the computer, an instruction to share the digital car key with a set of electronic devices, which is associated with a second user of the second electronic device.
| + | |
| | | | |
| − | ===Automatic Car-Key Pairing Based on Wireless Pairing (17716843)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Matthias Lerch | | Matthias Lerch |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes an electronic device that can automatically pair with a car key. The device can wirelessly connect with a vehicle and receive information about the car key pairing. Once the wireless pairing is complete, the device can determine if the car key pairing is supported. If it is, the device can then automatically pair with the car key, allowing it to function as a digital key for the vehicle using wireless communication or another communication protocol.
| |
| | | | |
| − | '''Abstract'''
| + | ===Device, Method, and Graphical User Interface for Synchronizing Two or More Displays ([[US Patent Application 18208849. Device, Method, and Graphical User Interface for Synchronizing Two or More Displays simplified abstract|18208849]])=== |
| − | An electronic device that at least semi-automatically performs car-key pairing is described. During operation, the electronic device may perform wireless pairing with a second electronic device (e.g., a vehicle), where the wireless pairing establishes a connection between the electronic device and the second electronic device. Moreover, during the wireless pairing, the electronic device may receive information associated with the car-key pairing of the electronic device and the second electronic device. Then, after the wireless pairing is completed, the electronic device may determine that the car-key pairing is supported or available based at least in part on the information. Next, the electronic device may selectively and at least semi-automatically perform the car-key pairing based at least in part on the information, where the car-key pairing enables the electronic device to function as a digital key for the second electronic device using wireless communication via the wireless pairing or another communication protocol.
| + | |
| | | | |
| − | ===Device, Method, and Graphical User Interface for Synchronizing Two or More Displays (18208849)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Justin E. Santamaria | | Justin E. Santamaria |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a system where a portable electronic device is connected to a vehicle display. The device displays a first user interface, and information is sent to the vehicle display to generate a second user interface with an affordance (a feature that allows the user to perform a specific action). When the user activates the affordance, a digital assistant is invoked. The user is prompted for an audible request, and the device displays a dialogue box for the digital assistant. The device then displays a user interface object associated with a search result, while still maintaining the first user interface on its own display.
| |
| | | | |
| − | '''Abstract'''
| + | ===Optical Measurement System with Multiple Launch Sites ([[US Patent Application 18121427. Optical Measurement System with Multiple Launch Sites simplified abstract|18121427]])=== |
| − | At a portable electronic device that includes a portable-device display and is in communication with a vehicle display, displaying a first user interface on the portable-device display. Sending, from the portable electronic device to the vehicle display, information for generating a second user interface, the second user interface including an affordance. While the second user interface is displayed on the vehicle display, detecting an input activating the affordance in the second user interface, and in response, causing the portable electronic device to invoke a digital assistant. In response to invoking the digital assistant, prompting a user for an audible request. In response to receiving the audible request, causing display, within the second user interface, of a digital assistant dialogue box; and subsequently causing display, within the second user interface, of a user interface object associated with a search result, and maintaining the first user interface on the portable-device display.
| + | |
| | | | |
| − | ===Optical Measurement System with Multiple Launch Sites (18121427)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Jason S. Pelc | | Jason S. Pelc |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes optical measurement systems that are used to analyze samples. These systems can emit light from different groups and have a switch network to control the routing of light. They also have detectors to measure the light. The systems can perform measurements using different wavelengths, with different groups of wavelengths being measured using different numbers of launch groups and corresponding detector groups.
| |
| | | | |
| − | '''Abstract'''
| + | ===GLINT ANALYSIS USING MULTI-ZONE LENS ([[US Patent Application 18027286. GLINT ANALYSIS USING MULTI-ZONE LENS simplified abstract|18027286]])=== |
| − | Various embodiments disclosed herein describe optical measurement systems for characterizing a sample. The optical measurement systems may selectively emit light from different numbers of launch groups, and may include a multi-stage optical switch network that may be controlled to route light to a desired number of launch groups. The optical measurement systems may further measure light using a corresponding number of detector groups. The optical measurement systems may perform measurements using a plurality of different wavelengths, where different groups of these wavelengths may be measured using different numbers of launch groups (as well as corresponding detector groups).
| + | |
| | | | |
| − | ===GLINT ANALYSIS USING MULTI-ZONE LENS (18027286)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Roei REMEZ | | Roei REMEZ |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes various devices, systems, and methods that can determine an eye characteristic, such as gaze direction or eye orientation, by analyzing the location of a glint. The process involves creating a glint by shining light on a specific part of the eye, capturing the reflected light with a sensor that is equipped with a multi-zone lens, and then determining the location of the glint based on the received light. The eye characteristic is then determined based on the location of the glint.
| |
| | | | |
| − | '''Abstract'''
| + | ===Electronic Device With A Tunable Lens ([[US Patent Application 18155372. Electronic Device With A Tunable Lens simplified abstract|18155372]])=== |
| − | Various implementations disclosed herein include devices, systems, and methods that determines an eye characteristic (e.g., gaze direction, eye orientation, etc.) based on the determined location of the glint. For example, an example process may include producing a glint by producing light that reflects off a portion of an eye, receiving the reflected light at a sensor wherein the reflected light is received after passing through a multi-zone lens having a first zone and a second zone, the first zone and second zone having different energy-spreading characteristics, determining a location of the glint based on the reflected light received at the sensor, and determining an eye characteristic based on the determined location of the glint.
| + | |
| | | | |
| − | ===Electronic Device With A Tunable Lens (18155372)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Igor Stamenov | | Igor Stamenov |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a lens module that includes a transparent lens element and a lens shaping structure. The lens shaping structure is connected to the transparent lens element and has multiple extensions, each connected to an actuator. The actuators can adjust the position of the lens shaping structure to adjust the transparent lens element. To ensure the lens shaping structure has the desired curvature, there is a portion between adjacent extensions that has a different property than the rest of the structure. This portion can have increased or decreased rigidity, or a different width, thickness, or Young's modulus.
| |
| | | | |
| − | '''Abstract'''
| + | ===HEAD-MOUNTED DISPLAY FOR VIRTUAL AND MIXED REALITY WITH INSIDE-OUT POSITIONAL, USER BODY AND ENVIRONMENT TRACKING ([[US Patent Application 18209651. HEAD-MOUNTED DISPLAY FOR VIRTUAL AND MIXED REALITY WITH INSIDE-OUT POSITIONAL, USER BODY AND ENVIRONMENT TRACKING simplified abstract|18209651]])=== |
| − | A lens module may include a transparent lens element, a lens shaping structure that is coupled to the transparent lens element, and a plurality of actuators that are configured to adjust a position of the lens shaping structure to adjust the transparent lens element. The lens shaping structure may include a plurality of extensions that are each coupled to a respective actuator. To ensure the lens shaping structure has desired curvature between the extensions, the lens shaping structure may have a portion in one or more segments between adjacent extensions that has a property with a different magnitude than an additional portion of the lens shaping structure. The portion between the adjacent extensions may have an increased or decreased rigidity relative to the additional portions. The portion between the adjacent extensions may have a different width, thickness, or Young's modulus compared to the additional portions.
| + | |
| | | | |
| − | ===HEAD-MOUNTED DISPLAY FOR VIRTUAL AND MIXED REALITY WITH INSIDE-OUT POSITIONAL, USER BODY AND ENVIRONMENT TRACKING (18209651)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Simon Fortin-Deschenes | | Simon Fortin-Deschenes |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a Head-Mounted Display (HMD) system that uses computer vision and sensor data fusion to accurately track the position of the user's body and the surrounding environment in real-time. This tracking is essential for virtual or mixed reality experiences. The system achieves high frame rates and low latency by processing some of the data directly on the HMD.
| |
| | | | |
| − | '''Abstract'''
| + | ===Optical Systems with Color Filters for Emissive Displays ([[US Patent Application 18173579. Optical Systems with Color Filters for Emissive Displays simplified abstract|18173579]])=== |
| − | A Head-Mounted Display system together with associated techniques for performing accurate and automatic inside-out positional, user body and environment tracking for virtual or mixed reality are disclosed. The system uses computer vision methods and data fusion from multiple sensors to achieve real-time tracking. High frame rate and low latency is achieved by performing part of the processing on the HMD itself.
| + | |
| | | | |
| − | ===Optical Systems with Color Filters for Emissive Displays (18173579)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Dmitry S. Sizov | | Dmitry S. Sizov |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device that uses a light source panel to emit image light. The light is directed towards an eye box using a waveguide. The device also includes an input coupler to send the light into the waveguide and an output coupler to direct the light out of the waveguide. A color filter is placed between the light source panel and the output coupler to filter the image light using a steep cutoff characteristic. This allows the image light to have a desired color while maximizing the efficiency of the light emitters in the light source panel, making the device more power efficient.
| |
| | | | |
| − | '''Abstract'''
| + | ===Systems With Supplemental Illumination ([[US Patent Application 18179899. Systems With Supplemental Illumination simplified abstract|18179899]])=== |
| − | An electronic device may provide image light to an eye box. The display may include a light source panel that emits the image light. A waveguide may direct the image light towards the eye box. An input coupler may couple the image light into the waveguide and an output coupler may couple the image light out of the waveguide. A color filter may be optically interposed between the light source panel and the output coupler. The color filter may filter the image light using a steep cutoff characteristic. The color filter may allow the image light to exhibit a desired color point while also allowing the light source panel to use light emitters having peak emission wavelengths that maximize the efficiency of the light emitters and thus the power efficiency of the device.
| + | |
| | | | |
| − | ===Systems With Supplemental Illumination (18179899)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Ritu Shah | | Ritu Shah |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a head-mounted device that has a support structure and displays to present images to the user. It also includes cameras and sensors supported by the device. The cameras are used to track the movement of the user's hands or other objects. In low lighting conditions, an illumination system can be activated to provide additional light for the cameras. This system can emit a single beam of light over a specific area or steer a smaller beam of light across the area. Infrared light-emitting diodes and lasers are used as light sources for this illumination system.
| |
| | | | |
| − | '''Abstract'''
| + | ===Systems with Wireless Interface for Removable Support Accessories ([[US Patent Application 18176673. Systems with Wireless Interface for Removable Support Accessories simplified abstract|18176673]])=== |
| − | A head-mounted device may have a head-mounted support structure. Displays may present images to eye boxes at the rear of the head-mounted support structure. Cameras and other sensors may be supported by the head-mounted support structure. Tracking cameras may be used to track the movement of a user's hands or other external objects. In dim ambient lighting conditions, a supplemental illumination system may be activated to provide supplemental illumination for the tracking cameras. A single beam of supplemental illumination may be emitted over a given coverage area or a smaller beam of supplemental illumination may be steered across the given coverage area. Light-emitting devices such as infrared light-emitting diodes and infrared lasers may be used to form infrared light sources for the supplemental illumination system.
| + | |
| | | | |
| − | ===Systems with Wireless Interface for Removable Support Accessories (18176673)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Darshan R. Kasar | | Darshan R. Kasar |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a head-mounted device that has a housing with displays for the user to view. The device also includes a removable head strap that helps keep the displays in place while the device is being used. The head strap and housing have wireless power and communication capabilities. The power circuitry allows the head strap to transmit power from its battery to the housing, while the communication circuitry enables wireless data transfer between the strap and the housing. Additionally, the housing can also transmit power and data to the strap.
| |
| | | | |
| − | '''Abstract'''
| + | ===Optical Systems Having Polarization Recycling Structures ([[US Patent Application 18169339. Optical Systems Having Polarization Recycling Structures simplified abstract|18169339]])=== |
| − | A head-mounted device may have a head-mounted housing. The head-mounted housing may have displays that display images for a user. The images are viewable from eye boxes while the head-mounted device is being worn by the user. A head strap may be removably coupled to the head-mounted housing to help hold the displays in position during operation of the head-mounted device. The head strap and head-mounted housing may have wireless power circuitry and communications circuitry. The wireless power circuitry may be used to transmit power from a battery in the head strap to the head-mounted housing. The communications circuitry may include wireless radio-frequency circuitry and/or optical circuitry that allow the head strap to convey wireless data to the head-mounted housing. The head-mounted housing may also transmit power and/or data to the strap.
| + | |
| | | | |
| − | ===Optical Systems Having Polarization Recycling Structures (18169339)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Thanh Son Nguyen | | Thanh Son Nguyen |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a display technology that uses a ferroelectric liquid crystal on silicon (fLCOS) panel to produce image light. The display includes illumination optics that generate linear polarized illumination light, which is then modulated by the fLCOS panel to create the final image. The illumination optics consist of light emitters that emit different wavelengths of light, and an X-plate that combines these lights to produce the illumination light. Polarization recycling structures, such as reflective polarizers and quarter waveplates, are used to minimize light loss and maximize the efficiency of the display.
| |
| | | | |
| − | '''Abstract'''
| + | ===TECHNIQUES FOR SWITCHING BETWEEN IMMERSION LEVELS ([[US Patent Application 18207197. TECHNIQUES FOR SWITCHING BETWEEN IMMERSION LEVELS simplified abstract|18207197]])=== |
| − | A display may include illumination optics, a ferroelectric liquid crystal on silicon (fLCOS) panel, and a waveguide. The illumination optics may produce linear polarized illumination light that is modulated by the fLCOS panel to produce image light. The illumination optics may include light emitters that emit respective wavelengths of the illumination light. The illumination optics may include an X-plate that outputs the illumination light by combining the light emitted by the light emitters. Polarization recycling structures may be optically interposed between each of the light emitters and the X-plate. The polarization recycling structures may include a reflective polarizer. If desired, the polarizing recycling structures may also include a quarter waveplate. The polarization recycling structures may serve to minimize the amount of light lost in producing linearly polarized illumination light for the fLCOS display panel, thereby maximizing the optical efficiency of the display.
| + | |
| | | | |
| − | ===TECHNIQUES FOR SWITCHING BETWEEN IMMERSION LEVELS (18207197)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Earl M. Olson | | Earl M. Olson |
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| − | '''Brief explanation'''
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| − | This abstract describes a computer program that can create a simulated reality environment on an electronic device. The program allows the user to change the level of immersion in the environment by using a rotatable input device. The environment is presented at different immersion levels, each associated with a different location within the simulated reality.
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| | | | |
| − | '''Abstract'''
| + | ===Tactile Feedback for Locked Device User Interfaces ([[US Patent Application 18210606. Tactile Feedback for Locked Device User Interfaces simplified abstract|18210606]])=== |
| − | In one implementation, a non-transitory computer-readable storage medium stores program instructions computer-executable on one or more processors of an electronic device to perform operations. The operations include presenting, on a display of the electronic device, a simulated reality (SR) environment at a first immersion level, where the first immersion level is associated with a first location of a reality boundary. Using a rotatable input device of the electronic device, input is received representing a request to change the first immersion level to a second immersion level. In accordance with receiving the input, the SR environment is presented at the second immersion level, where the second immersion level is associated with a second location of the reality boundary.
| + | |
| | | | |
| − | ===Tactile Feedback for Locked Device User Interfaces (18210606)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Camille Moussette | | Camille Moussette |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a computer system that has a user interface with different elements, such as buttons or menus, and a background element. When the system detects an input from the user, it determines whether the input is directed towards one of the user interface elements or the background element. If the input meets certain criteria, the system performs a specific operation associated with the respective element. However, if the input does not meet the criteria, the system does not perform the operation. If the input is directed towards the background element and meets different criteria, the system changes the appearance of the background element. Again, if the input does not meet the criteria, the system does not change the appearance of the background element.
| |
| | | | |
| − | '''Abstract'''
| + | ===METHOD OF DISPLAYING SELECTABLE OPTIONS ([[US Patent Application 18182298. METHOD OF DISPLAYING SELECTABLE OPTIONS simplified abstract|18182298]])=== |
| − | A computer system displays a user interface with one or more user interface elements and a background element. In response to detecting an input directed to the user interface: if the input is directed to a respective element of the one or more user interface elements and meets first input threshold criteria, the computer system performs an operation associated with the respective element; if the input is directed to the respective element and does not meet the first input threshold criteria, the computer system forgoes performing the operation associated with the respective element; if the input is directed to the background element and meets second input threshold criteria, the computer system changes an appearance of the background element; and, if the input is directed to the background element and does not meet the second input threshold criteria, the computer system forgoes changing the appearance of the background element.
| + | |
| | | | |
| − | ===METHOD OF DISPLAYING SELECTABLE OPTIONS (18182298)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Nathan GITTER | | Nathan GITTER |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes methods for displaying selectable options in a computer-generated environment to create an efficient and user-friendly experience. These methods involve displaying options in a three-dimensional virtual environment based on certain criteria being met, such as the user's hand being in a specific position relative to the electronic device. Additionally, the user can interact with these options using various inputs and gestures, allowing for one-handed operation.
| |
| | | | |
| − | '''Abstract'''
| + | ===METHOD OF INTERACTING WITH OBJECTS IN AN ENVIRONMENT ([[US Patent Application 18182300. METHOD OF INTERACTING WITH OBJECTS IN AN ENVIRONMENT simplified abstract|18182300]])=== |
| − | Methods for displaying selectable options in a computer-generated environment provide for an efficient and intuitive user experience. In some embodiments, one or more selectable options are displayed in a three-dimensional computer-generated environment in accordance with the determination that the one or more criteria have been satisfied, including a criteria that a hand of the user is oriented in a predetermined manner with respect to an electronic device. In some embodiments, a user is able to perform one-handed actuation of a selectable option with a plurality of user inputs and/or gestures that satisfy one or more activation criteria.
| + | |
| | | | |
| − | ===METHOD OF INTERACTING WITH OBJECTS IN AN ENVIRONMENT (18182300)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Aaron M. BURNS | | Aaron M. BURNS |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes methods for interacting with objects and user interface elements in a computer-generated environment to create an efficient and intuitive user experience. It explains that users can interact with objects directly or indirectly, and in some cases, the manipulations of virtual objects are scaled while performing indirect manipulations. However, when performing direct manipulations, the manipulations of virtual objects are not scaled. The abstract also mentions that an object can be reconfigured from an indirect manipulation mode to a direct manipulation mode by moving the object to a specific position in the three-dimensional environment in response to a gesture.
| |
| | | | |
| − | '''Abstract'''
| + | ===TOUCH CONTROLLER ARCHITECTURE ([[US Patent Application 18335934. TOUCH CONTROLLER ARCHITECTURE simplified abstract|18335934]])=== |
| − | Methods for interacting with objects and user interface elements in a computer-generated environment provide for an efficient and intuitive user experience. In some embodiments, a user can directly or indirectly interact with objects. In some embodiments, while performing an indirect manipulation, manipulations of virtual objects are scaled. In some embodiments, while performing a direct manipulation, manipulations of virtual objects are not scaled. In some embodiments, an object can be reconfigured from an indirect manipulation mode into a direct manipulation mode by moving the object to a respective position in the three-dimensional environment in response to a respective gesture.
| + | |
| | | | |
| − | ===TOUCH CONTROLLER ARCHITECTURE (18335934)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Shahrooz SHAHPARNIA | | Shahrooz SHAHPARNIA |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a touch controller that can be programmed to configure touch circuitry based on a scan plan. The touch controller includes a transmit section to generate stimulation signals, a receive section to process touch signals, and a memory to store the touch signals. It also includes a programmable scan engine to configure the transmit section, receive section, and memory according to the scan plan. This touch controller offers more robust and flexible touch circuitry to handle different types of touch events on a touch panel. Additionally, an active stylus is mentioned, which can generate stimulation signals detectable by the touch controller during various touch events on the panel.
| |
| | | | |
| − | '''Abstract'''
| + | ===Electronic Devices With Finger Sensors ([[US Patent Application 18336522. Electronic Devices With Finger Sensors simplified abstract|18336522]])=== |
| − | A touch controller that can configure touch circuitry according to a scan plan, which can define a sequence of scan events to be performed on a touch panel is disclosed. The touch controller can include a configurable transmit section to generate stimulation signals to drive the panel, a configurable receive section to receive and process touch signals from the panel, and a configurable memory to store the touch signals. The touch controller can also include a programmable scan engine to configure the transmit section, the receive section, and the memory according to the scan plan. The touch controller advantageously provides more robust and flexible touch circuitry to handle various types of touch events at the panel. An active stylus that can generate stimulation signals that can be detected by the touch controller during various touch events at the panel is also disclosed.
| + | |
| | | | |
| − | ===Electronic Devices With Finger Sensors (18336522)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Forrest C. Wang | | Forrest C. Wang |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a head-mounted electronic device that has a display and lenses for the user to see images. The device is supported by structures that can also hold external displays that can be seen by others. The device also includes sensors that can detect touch or force input from the user's finger, which are located on the front face of the device or other parts of the support structures.
| |
| | | | |
| − | '''Abstract'''
| + | ===TOUCH SENSOR PANEL WITH STAGGERED TOUCH ELECTRODES ([[US Patent Application 18180773. TOUCH SENSOR PANEL WITH STAGGERED TOUCH ELECTRODES simplified abstract|18180773]])=== |
| − | An electronic device such as a head mounted device may have an inner display that displays an image for a user through lenses. Head-mounted support structures may be used to support the display and lenses. One or more external displays may be publicly viewable while the head-mounted device is being worn. The head-mounted support structures may have a front face on which an external display is mounted. One or more finger sensors that are configured to detect touch input, force input, and/or other input from an external object such as a user's finger may be included in the head-mounted device. A finger sensor may have an elongated shape that runs along a peripheral edge of an external display on the front face. Finger sensors may also be located on other portions of the support structures.
| + | |
| | | | |
| − | ===TOUCH SENSOR PANEL WITH STAGGERED TOUCH ELECTRODES (18180773)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Emmanuelle J. MERCED-GRAFALS | | Emmanuelle J. MERCED-GRAFALS |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a touch sensor panel that consists of multiple touch electrodes arranged in a two-dimensional grid. These touch electrodes have first and second protrusions on opposite sides, with the first protrusions being offset from the second protrusions along a different axis. The touch electrodes are designed to fit together like puzzle pieces, with the first protrusions of one electrode interlocking with the second protrusions of another electrode.
| |
| | | | |
| − | '''Abstract'''
| + | ===Merging Computer-Generated Objects ([[US Patent Application 18121673. Merging Computer-Generated Objects simplified abstract|18121673]])=== |
| − | A touch sensor panel comprises a plurality of touch electrodes in a two-dimensional array, the plurality of touch electrodes including first and second touch electrodes disposed along a first axis. The first and second touch electrodes can each include one or more first protrusions along a first side and one or more second protrusions along a second side, opposite the first side. The one or more first protrusions along the first side can be offset along a second axis, orthogonal to the first axis, from the one or more second protrusions along the second side. The first and second touch electrodes can tessellate such that the one or more first protrusions along the first side of the first touch electrode interlock with the one or more second protrusions along the second side of the second touch electrode.
| + | |
| | | | |
| − | ===Merging Computer-Generated Objects (18121673)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Nicolai Georg | | Nicolai Georg |
| | | | |
| − | '''Brief explanation'''
| |
| − | This method involves displaying computer-generated objects in an environment, including a first object with controls for modifying a content item. Extremity tracking data is obtained while these objects are displayed. The first object is then moved based on this tracking data. If the new position of the first object is close enough to a second object, they are merged to create a new object for modifying the content item. This new object is then displayed.
| |
| | | | |
| − | '''Abstract'''
| + | ===USER INTERFACE FOR LIMITING NOTIFICATIONS AND ALERTS ([[US Patent Application 18079666. USER INTERFACE FOR LIMITING NOTIFICATIONS AND ALERTS simplified abstract|18079666]])=== |
| − | A method includes displaying a plurality of computer-generated objects, including a first computer-generated object at a first position within an environment and a second computer-generated object at a second position within the environment. The first computer-generated object corresponds to a first user interface element that includes a first set of controls for modifying a content item. The method includes, while displaying the plurality of computer-generated objects, obtaining extremity tracking data. The method includes moving the first computer-generated object from the first position to a third position within the environment based on the extremity tracking data. The method includes, in accordance with a determination that the third position satisfies a proximity threshold with respect to the second position, merging the first computer-generated object with the second computer-generated object in order to generate a third computer-generated object for modifying the content item. The method includes displaying the third computer-generated object.
| + | |
| | | | |
| − | ===USER INTERFACE FOR LIMITING NOTIFICATIONS AND ALERTS (18079666)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Chanaka G. KARUNAMUNI | | Chanaka G. KARUNAMUNI |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a system and process for limiting notifications on an electronic device. It explains that the device can receive various types of data, such as touch data, ambient light data, intensity data, and motion data. Using this data, the device can determine if the user input is a cover gesture over the device's touch-sensitive display. If it is, the device will enter a "Do Not Disturb" mode for a set period of time, during which it will stop displaying notifications.
| |
| | | | |
| − | '''Abstract'''
| + | ===Bandwidth-Aware Fabric Traffic Shaping ([[US Patent Application 17900613. Bandwidth-Aware Fabric Traffic Shaping simplified abstract|17900613]])=== |
| − | The present disclosure relates to systems and processes for limiting notifications on an electronic device. In one example process, data representing a user input can be received by an electronic device. The data representing the user input can include touch data from the touch-sensitive device, ambient light data from an ambient light sensor, intensity data from a contact intensity sensor, and/or motion data from one or more motion sensors. Based on the data, it can be determined whether the user input is a cover gesture over a touch-sensitive display of the electronic device. In response to determining that the user input is a cover gesture over the touch-sensitive display, the electronic device can be put into a DND mode for a predetermined amount of time. While in the DND mode, the electronic device can cease to output some or all notifications.
| + | |
| | | | |
| − | ===Bandwidth-Aware Fabric Traffic Shaping (17900613)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Anjana Subramanian | | Anjana Subramanian |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a memory controller that uses a dynamic arbitration scheme. This scheme adjusts the way it prioritizes different types of data traffic based on factors such as the tolerance for delay, requested and available bandwidths, and other factors that can change over time. The goal is to optimize the allocation of resources and improve the overall performance of the memory controller.
| |
| | | | |
| − | '''Abstract'''
| + | ===GAZE-BASED USER INTERACTIONS ([[US Patent Application 18209931. GAZE-BASED USER INTERACTIONS simplified abstract|18209931]])=== |
| − | A memory controller may include a dynamic arbitration scheme to dynamically vary arbitration factors of two or more traffic classes based on dynamic latency tolerance, requested and available bandwidths on an interconnect from source agents to memory controllers, and other dynamic and static factors.
| + | |
| | | | |
| − | ===GAZE-BASED USER INTERACTIONS (18209931)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Avi BAR-ZEEV | | Avi BAR-ZEEV |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a process for interacting with objects on a user interface using eye gaze. It explains that a selected object is initially placed at a position determined by where the user is looking. However, if the user provides an input, the position of the object is moved to a different position that is not based on where the user is looking. The object is then placed at this new position.
| |
| | | | |
| − | '''Abstract'''
| + | ===SIMD Operand Permutation with Selection from among Multiple Registers ([[US Patent Application 18299452. SIMD Operand Permutation with Selection from among Multiple Registers simplified abstract|18299452]])=== |
| − | In an exemplary process for interacting with user interface objects using an eye gaze, a placement point for a selected object is designated at a first position based on a gaze position. In response to a user input, the placement point is moved to a second position that is not based on the gaze position, and the object is placed at the second position.
| + | |
| | | | |
| − | ===SIMD Operand Permutation with Selection from among Multiple Registers (18299452)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Christopher A. Burns | | Christopher A. Burns |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes techniques for routing operands among Single-Instruction Multiple-Data (SIMD) pipelines. The apparatus includes multiple hardware pipelines that can execute SIMD instructions for multiple threads simultaneously. These instructions specify two architectural registers. The pipelines have execution circuitry to perform operations and routing circuitry to select the first input operand for the execution circuitry. The routing circuitry can choose between a value from the first architectural register of another pipeline and a value from the second architectural register of a thread assigned to another pipeline. Additionally, the routing circuitry can support a shift and fill instruction, which allows for storing a specific portion of a graphics frame in one or more registers.
| |
| | | | |
| − | '''Abstract'''
| + | ===Decoding Status Flag Techniques for Memory Circuits ([[US Patent Application 18323178. Decoding Status Flag Techniques for Memory Circuits simplified abstract|18323178]])=== |
| − | Techniques are disclosed relating to operand routing among SIMD pipelines. In some embodiments, an apparatus includes a set of multiple hardware pipelines configured to execute a single-instruction multiple-data (SIMD) instruction for multiple threads in parallel, wherein the instruction specifies first and second architectural registers. In some embodiments, the pipelines include execution circuitry configured to perform operations using one or more pipeline stages of the pipeline. In some embodiments, the pipelines include routing circuitry configured to select, based on the instruction, a first input operand for the execution circuitry from among: a value from the first architectural register from thread-specific storage for another pipeline and a value from the second architectural register from thread-specific storage for a thread assigned to another pipeline. In some embodiments, the routing circuitry may support a shift and fill instruction that facilitates storage of an arbitrary portion of a graphics frame in one or more registers.
| + | |
| | | | |
| − | ===Decoding Status Flag Techniques for Memory Circuits (18323178)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Farid Nemati | | Farid Nemati |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes techniques for improving memory reliability. The memory circuitry includes memory cells, interface circuitry, and on-die error correcting code (ECC) circuitry. The ECC circuitry checks read data from the memory cells for errors and corrects any detected correctable errors to generate corrected data. The memory circuitry provides read data to a requesting circuit through the interface circuitry, including sets of corrected data from the on-die ECC circuitry. Additionally, the memory circuitry provides a decoding status flag (DSF) through the interface circuitry. The DSF is set to a first value when no error is detected, a second value when a correctable error is detected and corrected, and a third value when an uncorrectable error is detected by the on-die ECC circuitry.
| |
| | | | |
| − | '''Abstract'''
| + | ===Universal serial bus time synchronization ([[US Patent Application 18334394. Universal serial bus time synchronization simplified abstract|18334394]])=== |
| − | Techniques are disclosed relating to improving memory reliability. In some embodiments, memory circuitry includes memory cells configured to store data, interface circuitry, and on-die error correcting code (ECC) circuitry. The ECC circuitry may check read data from the memory cells for errors and correct detected correctable errors to generate corrected data. The memory circuitry may provide read data to a requesting circuit via the interface circuitry, including one or more sets of corrected data from the on-die ECC circuitry. The memory circuitry may provide a decoding status flag (DSF) via the interface circuitry, including to: set the DSF to a first value in response to no error being detected for a given set of provided read data, set the DSF to a second value in response to a correctable error that was detected and corrected by the on-die ECC circuitry to provide a given set of read data, and set the DSF to a third value in response to an uncorrectable error detected by the on-die ECC circuitry.
| + | |
| | | | |
| − | ===Universal serial bus time synchronization (18334394)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | John H. Kelm | | John H. Kelm |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes an apparatus that includes various components, a distributed timebase circuit, an interface, and a Time Synchronization Circuit (TSC). The purpose of this apparatus is to provide a consistent time measurement across different components by synchronizing their local timebases to a global timebase.
| |
| | | | |
| − | The interface of the apparatus is designed to be connected to one or more devices, and any transmissions on the interface are divided into multiple frames. The time on the interface is determined based on a frame number that identifies a specific frame.
| + | ===MACHINE-LEARNING BASED GESTURE RECOGNITION USING MULTIPLE SENSORS ([[US Patent Application 18202857. MACHINE-LEARNING BASED GESTURE RECOGNITION USING MULTIPLE SENSORS simplified abstract|18202857]])=== |
| | | | |
| − | The Time Synchronization Circuit (TSC) in the apparatus is responsible for capturing two timestamps simultaneously. The first timestamp is based on the frame number, which represents a specific point in time on the interface. The second timestamp is based on the local timebase, which corresponds to the same point in time. These two timestamps are used to correlate the time on the interface with the consistent time measurement provided by the global timebase.
| |
| | | | |
| − | '''Abstract''' | + | '''Main Inventor''' |
| − | An apparatus includes components, a distributed timebase circuit, an interface and a Time Synchronization Circuit (TSC). The timebase circuit is configured to provide local timebases in physical proximity to the components, and synchronize the local timebases to a global timebase so as to provide a consistent time measurement. The interface is configured to be coupled to one or more devices. Transmissions on the interface are logically divided into a plurality of frames. Time on the interface is defined based on a frame number identifying a particular frame. The TSC is configured to capture a first timestamp based on the frame number corresponding to a point in time on the interface, and to concurrently capture a second timestamp based on a local timebase corresponding to the point in time, wherein the first timestamp and the second timestamp correlate time on the interface to the consistent time measurement.
| |
| | | | |
| − | ===MACHINE-LEARNING BASED GESTURE RECOGNITION USING MULTIPLE SENSORS (18202857)===
| + | Charles MAALOUF |
| | | | |
| − | '''Inventor'''
| |
| − | Charles MAALOUF
| |
| | | | |
| − | '''Brief explanation'''
| + | ===USER INTERFACES FOR PEER-TO-PEER TRANSFERS ([[US Patent Application 18209333. USER INTERFACES FOR PEER-TO-PEER TRANSFERS simplified abstract|18209333]])=== |
| − | This abstract describes a device that uses machine learning to recognize gestures. The device has two sensors that provide different types of output. The device's processor uses these sensor outputs as inputs to a machine learning model that has been trained to predict gestures. Based on the output from the machine learning model, the processor determines the predicted gesture and performs a predetermined action on the device in response.
| |
| | | | |
| − | '''Abstract'''
| |
| − | A device implementing a system for machine-learning based gesture recognition includes at least one processor configured to, receive, from a first sensor of the device, first sensor output of a first type, and receive, from a second sensor of the device, second sensor output of a second type that differs from the first type. The at least one processor is further configured to provide the first sensor output and the second sensor output as inputs to a machine learning model, the machine learning model having been trained to output a predicted gesture based on sensor output of the first type and sensor output of the second type. The at least one processor is further configured to determine the predicted gesture based on an output from the machine learning model, and to perform, in response to determining the predicted gesture, a predetermined action on the device.
| |
| | | | |
| − | ===USER INTERFACES FOR PEER-TO-PEER TRANSFERS (18209333)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Marcel VAN OS | | Marcel VAN OS |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract above describes user interfaces for managing peer-to-peer transfers. It explains that the interfaces allow users to initiate and manage transfers, view completed transfers, and visually distinguish different types of messages. The interfaces also enable users to activate accounts for sending and receiving transfers, exchange accounts, split transfers between multiple accounts, and view a history of transfers. Additionally, the interfaces support voice-activated transfers and provide feedback through visuals or haptic sensations during transfer operations.
| |
| | | | |
| − | '''Abstract'''
| + | ===METHOD AND DEVICE FOR LATENCY REDUCTION OF AN IMAGE PROCESSING PIPELINE ([[US Patent Application 18209643. METHOD AND DEVICE FOR LATENCY REDUCTION OF AN IMAGE PROCESSING PIPELINE simplified abstract|18209643]])=== |
| − | The present disclosure generally relates to user interfaces for managing peer-to-peer transfers. In some examples, a device provides user interfaces for initiating and managing transfers. In some examples, a device provides user interfaces corresponding to completed transfers. In some examples, a device provides user interfaces for providing visually distinguishable message object appearances based on message designation. In some examples, a device provides user interfaces for activating accounts for accepting and sending transfers. In some examples, a device provides user interfaces for exchanging accounts for use in a transfer. In some examples, a device provides user interfaces for splitting transfers between two or more accounts. In some examples, a device provides user interfaces for generating and displaying a transfers history list. In some examples, a device provides user interfaces for voice-activation of transfers. In some examples, a device provides visual or haptic feedback corresponding to a transfer operation.
| + | |
| | | | |
| − | ===METHOD AND DEVICE FOR LATENCY REDUCTION OF AN IMAGE PROCESSING PIPELINE (18209643)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Bertrand Nepveu | | Bertrand Nepveu |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for determining the complexity of an image of a physical environment and estimating the time it takes to combine virtual content with the image. If the estimated time exceeds a certain threshold, the virtual content is not rendered from the camera's perspective. Instead, a previous render of the virtual content is combined with the image to create a graphical environment.
| |
| | | | |
| − | '''Abstract'''
| + | ===Systems, Methods, and Graphical User Interfaces for Sharing Augmented Reality Environments ([[US Patent Application 18126352. Systems, Methods, and Graphical User Interfaces for Sharing Augmented Reality Environments simplified abstract|18126352]])=== |
| − | In some implementations, a method includes: determining a complexity value for first image data associated with of a physical environment that corresponds to a first time period; determining an estimated composite setup time based on the complexity value for the first image data and virtual content for compositing with the first image data; in accordance with a determination that the estimated composite setup time exceeds the threshold time: forgoing rendering the virtual content from the perspective that corresponds to the camera pose of the device relative to the physical environment during the first time period; and compositing a previous render of the virtual content for a previous time period with the first image data to generate the graphical environment for the first time period.
| + | |
| | | | |
| − | ===Systems, Methods, and Graphical User Interfaces for Sharing Augmented Reality Environments (18126352)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Praveen Sharma | | Praveen Sharma |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technology that involves two electronic devices, one with processors, memory, cameras, and a display, and another with similar components. The first device captures an image of the second device, which displays position information on its own display. This position information indicates the location of the second device within an augmented reality environment. After capturing this image, the first device uses the position information to display virtual objects within the augmented reality environment on its own display.
| |
| | | | |
| − | '''Abstract'''
| + | ===XR Preferred Movement Along Planes ([[US Patent Application 18335364. XR Preferred Movement Along Planes simplified abstract|18335364]])=== |
| − | A first electronic device with one or more processors, memory, one or more cameras, and a display generation component captures, with the one or more cameras, an image of a second electronic device that includes position information displayed via a display generation component of the second electronic device. The position information indicates a location of the second electronic device within an augmented reality environment that includes a physical environment in which the first electronic device and the second electronic device are located. The first electronic device, after capturing the image of the second electronic device that includes the position information, displays, via the display generation component of the first electronic device, one or more virtual objects within the augmented reality (AR) environment using the position information captured from the second electronic device.
| |
| | | | |
| − | ===XR Preferred Movement Along Planes (18335364)===
| |
| | | | |
| − | '''Inventor''' | + | '''Main Inventor''' |
| | + | |
| | David Lui | | David Lui |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a method for presenting a virtual object in a real environment using a first device. The process involves obtaining two geometric representations of a physical surface in the real environment, determining an initialization location on the surface for the virtual object, and obtaining the normals (directions perpendicular to the surface) for both representations at the initialization location. Finally, the virtual object is rendered at the initialization location based on the obtained normals.
| |
| | | | |
| − | '''Abstract'''
| + | ===SEMANTIC LABELING OF NEGATIVE SPACES ([[US Patent Application 18209582. SEMANTIC LABELING OF NEGATIVE SPACES simplified abstract|18209582]])=== |
| − | Presenting a virtual object includes obtaining, by a first device, a first geometric representation and a second geometric representation corresponding to a physical surface in a real environment, determining an initialization location on the first physical surface for a virtual object, obtaining a first normal for the first representation and a second normal for the second representation at the initialization location, and rendering the virtual object at the initialization location based on the first normal and the second normal.
| |
| | | | |
| − | ===SEMANTIC LABELING OF NEGATIVE SPACES (18209582)===
| |
| | | | |
| − | '''Inventor''' | + | '''Main Inventor''' |
| | + | |
| | Mark Drummond | | Mark Drummond |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a method for defining a negative space in a three-dimensional scene model. The method involves obtaining a three-dimensional model of a physical environment and identifying a subspace within that model that contains fewer points than a specified threshold. The method then determines a semantic label for this subspace and generates a characterization vector that includes information about the spatial extent of the subspace and its semantic label.
| |
| | | | |
| − | '''Abstract'''
| + | ===Boundary Smoothing in a Display ([[US Patent Application 18165648. Boundary Smoothing in a Display simplified abstract|18165648]])=== |
| − | In one implementation, a method of defining a negative space in a three-dimensional scene model is performed at a device including a processor and non-transitory memory. The method includes obtaining a three-dimensional scene model of a physical environment including a plurality of points, wherein each of the plurality of points is associated with a set of coordinates in a three-dimensional space. The method includes defining a subspace in the three-dimensional space with less than a threshold number of the plurality of points. The method includes determining a semantic label for the subspace. The method includes generating a characterization vector of the subspace, wherein the characterization vector includes the spatial extent of the subspace and the semantic label.
| + | |
| | | | |
| − | ===Boundary Smoothing in a Display (18165648)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Juan He | | Juan He |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device that includes a lenticular display, which allows for viewing three-dimensional images. To improve the appearance of the curved edges of the display, the device uses dimming factors to modify the brightness of the pixels. Each physical pixel on the display has a corresponding perceived pixel, which may have a different size. The dimming factors for smoothing the curved edges are determined based on the perceived pixels.
| |
| | | | |
| − | '''Abstract'''
| + | ===Electronic Devices with Probe-Fed Dielectric Resonator Antennas ([[US Patent Application 18335905. Electronic Devices with Probe-Fed Dielectric Resonator Antennas simplified abstract|18335905]])=== |
| − | An electronic device may include a lenticular display. The lenticular display may have a lenticular lens film formed over an array of pixels. The lenticular lenses may be configured to enable stereoscopic viewing of the display such that a viewer perceives three-dimensional images. To mitigate jaggedness in a curved edge of the active area, control circuitry may modify input pixel data for the display using dimming factors. Each brightness value of the pixel data may be multiplied by a corresponding dimming factor such that the curved edge has a smooth appearance. Each physical pixel in the display may have an associated perceived pixel that is based on an appearance of that physical pixel through the lenticular lens film. The perceived pixel may have a different footprint than its corresponding physical pixel. The dimming factors for boundary smoothing in the curved edges may be based on the perceived pixels.
| + | |
| | | | |
| − | ===Electronic Devices with Probe-Fed Dielectric Resonator Antennas (18335905)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Bilgehan Avser | | Bilgehan Avser |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes an electronic device that has a special type of antenna called a phased antenna array. This antenna array includes a probe-fed dielectric resonator antenna, which is made up of a dielectric resonating element mounted on a flexible printed circuit. The antenna has a feed probe, which is a patch of conductive traces on the side of the resonating element. This feed probe excites resonant modes of the resonating element and allows it to transmit radio-frequency signals through the display cover layer of the device. Additionally, there is another feed probe mounted on a different side of the resonating element to cover different polarizations. These probe-fed dielectric resonator antennas are arranged in a specific pattern across the phased antenna array to cover different polarizations and frequencies.
| |
| | | | |
| − | '''Abstract'''
| + | ===BATTERY MANAGEMENT SYSTEM ([[US Patent Application 18187062. BATTERY MANAGEMENT SYSTEM simplified abstract|18187062]])=== |
| − | An electronic device may be provided with a phased antenna array and a display cover layer. The phased antenna array may include a probe-fed dielectric resonator antenna. The antenna may include a dielectric resonating element mounted to a flexible printed circuit. A feed probe may be formed from a patch of conductive traces on a sidewall of the resonating element. The feed probe may excite resonant modes of the resonating element. The resonating element may convey corresponding radio-frequency signals through the display cover layer. An additional feed probe may be mounted to an orthogonal sidewall of the resonating element for covering additional polarizations. Probe-fed dielectric resonator antennas for covering different polarizations and frequencies may be interleaved across the phased antenna array.
| + | |
| | | | |
| − | ===BATTERY MANAGEMENT SYSTEM (18187062)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Fletcher R. Rothkopf | | Fletcher R. Rothkopf |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a battery management system that aims to minimize battery degradation. The system consists of an electronic device with a primary battery and an auxiliary battery that powers the device. A processor is responsible for monitoring the charge levels of both batteries, while a charging station adjusts the charging process based on the battery levels and the device's usage. The system's goal is to optimize battery performance and prolong their lifespan.
| |
| | | | |
| − | '''Abstract'''
| + | ===Methods and Circuitry for Mitigating Saturation in Wireless Power Systems ([[US Patent Application 18336555. Methods and Circuitry for Mitigating Saturation in Wireless Power Systems simplified abstract|18336555]])=== |
| − | A battery management system for minimizing battery degradation. The system including an electronic device with a primary battery, an auxiliary battery configured to power the electronic device, a processor in communication with the electronic device and operable to monitor a state of charge of the primary battery and a state of charge of the auxiliary battery, a charging station in communication with the processor and operable to modulate a charge based on at least one of the state of charge of the primary battery, the state of charge of the auxiliary battery, or a usage of the electronic device.
| + | |
| | | | |
| − | ===Methods and Circuitry for Mitigating Saturation in Wireless Power Systems (18336555)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Adam L. Schwartz | | Adam L. Schwartz |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless charging system that transfers power from a transmitter to a receiver without the need for physical connections. However, the receiver may experience shield saturation, which is when a component called a ferrite structure becomes overwhelmed with power. This saturation can cause disruptive oscillations in the power transfer process. To address this issue, the power transmitter is equipped with control circuitry that can detect and mitigate the saturation problem.
| |
| | | | |
| − | '''Abstract'''
| + | ===Electronic Devices with Power Boosting for High Frequency Communication ([[US Patent Application 18184555. Electronic Devices with Power Boosting for High Frequency Communication simplified abstract|18184555]])=== |
| − | A wireless charging system having a power transmitter may wirelessly transfer power to a power receiver. Shield saturation, such as saturation of a ferrite structure, in the wireless power receiver may occur under some operating conditions. Saturation can lead to disruptive oscillations in power transfer. The power transmitting may include control circuitry for detecting and mitigating saturation.
| + | |
| | | | |
| − | ===Electronic Devices with Power Boosting for High Frequency Communication (18184555)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Zdravko Boos | | Zdravko Boos |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device that includes wireless circuitry with light sources, photodiodes, a resonating element, and a common gate amplifier (CGA). The device can operate in transmit and receive modes.
| |
| | | | |
| − | In the transmit mode, the photodiodes use optical local oscillators to generate equal portions of an antenna current. This current is then amplified by the CGA and transmitted through the resonating element.
| + | ===WIRELESS DEVICE PERFORMANCE OPTIMIZATION USING DYNAMIC POWER CONTROL ([[US Patent Application 18327595. WIRELESS DEVICE PERFORMANCE OPTIMIZATION USING DYNAMIC POWER CONTROL simplified abstract|18327595]])=== |
| | | | |
| − | In the receive mode, the resonating element generates an antenna current, which is amplified by the CGA. The amplified current is then passed to the photodiodes.
| |
| | | | |
| − | To boost power, multiple photodiodes are connected to the amplifier in a current sharing configuration. The amplifier has a wide bandwidth, performs impedance matching between the resonating element and the photodiodes, and isolates the photodiodes from antenna mismatch.
| + | '''Main Inventor''' |
| | | | |
| − | Additionally, the antenna can be integrated into a phased antenna array to further increase power.
| + | Digvijay A. Jadhav |
| − | | |
| − | '''Abstract'''
| |
| − | An electronic device may include wireless circuitry with light sources, a set of photodiodes, a resonating element, and a common gate amplifier (CGA). In a transmit mode, the photodiodes may use optical local oscillators to generate equal portions of an antenna current amplified by the CGA for transmission by the resonating element. In a receive mode, the resonating element may generate an antenna current which is amplified by the amplifier and passed to the photodiodes. Including multiple photodiodes coupled to the amplifier in a current sharing configuration may serve to boost power. The amplifier may exhibit a wide bandwidth, may perform impedance matching between the resonating element and the photodiodes, and may isolate the photodiodes from antenna mismatch. The antenna may be integrated into a phased antenna array to further boost power.
| |
| | | | |
| − | ===WIRELESS DEVICE PERFORMANCE OPTIMIZATION USING DYNAMIC POWER CONTROL (18327595)===
| |
| | | | |
| − | '''Inventor'''
| + | ===Collaborative Document Editing ([[US Patent Application 18132866. Collaborative Document Editing simplified abstract|18132866]])=== |
| − | Digvijay A. Jadhav
| |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for monitoring and controlling the power usage of radio frequency (RF) emitting components in a mobile device to regulate the amount of RF exposure. By tracking and modifying power usage over time, the mobile device can control the average RF exposure within a specific time period. The mobile device periodically calculates updated averages of RF transmissions based on data received from its components, and compares these averages to predetermined power limits. If the averages exceed the limits, the mobile device can adjust the current transmissions of its radio transceivers and other RF emitting components accordingly.
| |
| | | | |
| − | '''Abstract''' | + | '''Main Inventor''' |
| − | A dynamic specific absorption rate (SAR) may be implemented by monitoring and controlling power utilization of the various radio frequency (RF) emitting components over time within a mobile device. Power utilization may be tracked and modified to control the time-averaged RF exposure over a rolling time window. Periodically calculations of the updated rolling averages for RF transmissions may be performed based on the transmission data received from the mobile device components, and the continuously updated rolling averages of RF transmissions may be compared to time-average power utilization limits. Based on such comparisons, the mobile device may dynamically adjust the current transmissions of the radio transceivers and other RF emitting components on the mobile device.
| |
| | | | |
| − | ===Collaborative Document Editing (18132866)===
| + | Keng Fai Lee |
| | | | |
| − | '''Inventor'''
| |
| − | Keng Fai Lee
| |
| | | | |
| − | '''Brief explanation'''
| + | ===Electronic Devices with Standard-Compliant Sensing Capabilities ([[US Patent Application 18167017. Electronic Devices with Standard-Compliant Sensing Capabilities simplified abstract|18167017]])=== |
| − | The abstract describes different features and processes related to document collaboration. These include the use of animations to show updates made to a document on a remote device, the ability to highlight changes made by collaborators, the option to display a portion of a document based on another user's cursor location, and the automatic conversion of text in document chat sessions into clickable hyperlinks that perform specific operations in the document editor.
| |
| | | | |
| − | '''Abstract'''
| |
| − | Various features and processes related to document collaboration are disclosed. In some implementations, animations are presented when updating a local document display to reflect changes made to the document at a remote device. In some implementations, a user can selectively highlight changes made by collaborators in a document. In some implementations, a user can select an identifier associated with another user to display a portion of a document that includes the other user's cursor location. In some implementations, text in document chat sessions can be automatically converted into hyperlinks which, when selected, cause a document editor to perform an operation.
| |
| | | | |
| − | ===Electronic Devices with Standard-Compliant Sensing Capabilities (18167017)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Jochen Schrattenecker | | Jochen Schrattenecker |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device that uses wireless technology to communicate with a base station. It also has the ability to detect the distance to an external object using a specific type of antenna that transmits a signal. The device receives a reflected signal from the object and uses a specific technique called element-wise division to analyze the signal. By analyzing the signal, the device can determine the distance to the object. This technology allows the device to perform distance detection without the need for dedicated radar equipment, while still maintaining efficient data transfer.
| |
| | | | |
| − | '''Abstract'''
| + | ===METHODS AND USER INTERFACES FOR INITIATING COMMUNICATIONS ([[US Patent Application 17898342. METHODS AND USER INTERFACES FOR INITIATING COMMUNICATIONS simplified abstract|17898342]])=== |
| − | An electronic device may include wireless circuitry that conveys data with a base station according to a communication standard and that detects range to an external object using a first antenna that transmits a waveform compliant with the standard. The waveform may be a Sounding Reference Signal (SRS) waveform, a transmit data waveform, or another waveform. A second antenna may receive a reflected signal that includes the transmitted waveform. The communications circuitry may perform element-wise division on symbols of a selected subcarrier in the reflected signal using corresponding phases and magnitudes of a set of complex OFDM symbols used to generate the transmitted waveform. Peak detection may be performed to detect the range. Using standard-compliant transmit waveforms to also perform spatial ranging may allow the communications circuitry to avoid dedicated radar circuitry while also minimizing impact to the transfer of the data.
| + | |
| | | | |
| − | ===METHODS AND USER INTERFACES FOR INITIATING COMMUNICATIONS (17898342)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Pablo F. CARO | | Pablo F. CARO |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract above describes the topic of the present disclosure, which is focused on methods and user interfaces for establishing communications. It does not provide any specific details or claims, but simply states the general subject matter of the disclosure.
| |
| | | | |
| − | '''Abstract'''
| + | ===Method and System for Providing At Least One Image Captured By a Scene Camera of a Vehicle ([[US Patent Application 18333943. Method and System for Providing At Least One Image Captured By a Scene Camera of a Vehicle simplified abstract|18333943]])=== |
| − | The present disclosure generally relates to methods and user interfaces for establishing communications.
| + | |
| | | | |
| − | ===Method and System for Providing At Least One Image Captured By a Scene Camera of a Vehicle (18333943)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Lejing Wang | | Lejing Wang |
| | | | |
| − | '''Brief explanation'''
| |
| − | This disclosure describes a method for providing images of real objects captured by scene cameras mounted on a vehicle. The method involves determining the camera poses of the scene cameras relative to a reference coordinate system associated with the vehicle. User attention data captured by an information capturing device is also provided, which includes information about the user's attention. An attention direction is determined based on the user attention data, relative to the reference coordinate system. Using the attention direction and the camera poses, the method identifies which scene camera should be used to capture images of the real objects. Finally, the method provides the images captured by the selected scene camera.
| |
| | | | |
| − | '''Abstract'''
| + | ===IMAGE SIGNAL ENCODING/DECODING METHOD AND DEVICE THEREFOR ([[US Patent Application 18122683. IMAGE SIGNAL ENCODING/DECODING METHOD AND DEVICE THEREFOR simplified abstract|18122683]])=== |
| − | The present disclosure relates to a method of providing at least one image of at least one real object captured by at least one scene camera of a plurality of scene cameras mounted on a vehicle. The method includes: providing camera poses of respective scene cameras of the plurality of scene cameras relative to a reference coordinate system associated with the vehicle, providing user attention data related to a user captured by an information capturing device, providing at least one attention direction relative to the reference coordinate system from the user attention data, determining at least one of the scene cameras among the plurality of scene cameras according to the at least one attention direction and the respective camera pose of the at least one of the scene cameras, and providing at least one image of at least one real object captured by the at least one of the scene cameras.
| + | |
| | | | |
| − | ===IMAGE SIGNAL ENCODING/DECODING METHOD AND DEVICE THEREFOR (18122683)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Bae Keun Lee | | Bae Keun Lee |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for decoding images. It involves generating a list of potential merge candidates for a specific block in the image. From this list, one merge candidate is selected. Motion compensation is then performed on the current block using the motion information of the selected merge candidate.
| |
| | | | |
| − | '''Abstract'''
| + | ===USER INTERFACES FOR INTERACTING WITH CHANNELS THAT PROVIDE CONTENT THAT PLAYS IN A MEDIA BROWSING APPLICATION ([[US Patent Application 18336569. USER INTERFACES FOR INTERACTING WITH CHANNELS THAT PROVIDE CONTENT THAT PLAYS IN A MEDIA BROWSING APPLICATION simplified abstract|18336569]])=== |
| − | An image decoding method according to the present invention may comprise the steps of: generating a merge candidate list of a current block; selecting one merge candidate from merge candidates included in the merge candidate list; and performing motion compensation of the current block on the basis of motion information of the selected merge candidate.
| + | |
| | | | |
| − | ===USER INTERFACES FOR INTERACTING WITH CHANNELS THAT PROVIDE CONTENT THAT PLAYS IN A MEDIA BROWSING APPLICATION (18336569)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Matthew J. CIELAK | | Matthew J. CIELAK |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes different features of an electronic device. It states that the device can show various content options from a channel once the user subscribes to it. It also mentions that the device can play content from different channels in a single media browsing application. Additionally, the device can suggest subscribing to a channel based on the user's content consumption habits.
| |
| | | | |
| − | '''Abstract'''
| + | ===Devices, Methods, and Graphical User Interfaces for Capturing and Recording Media in Multiple Modes ([[US Patent Application 18208836. Devices, Methods, and Graphical User Interfaces for Capturing and Recording Media in Multiple Modes simplified abstract|18208836]])=== |
| − | In some embodiments, an electronic device presents a plurality of representations of content items that are available on a respective channel in response to successfully subscribing the respective channel. In some embodiments, an electronic device plays content that is provided by a channel in a unified media browsing application. In some embodiments, an electronic device presents information about subscribing to a channel based on content consumption activity of the user on the electronic device in accordance with some embodiments of the disclosure.
| |
| | | | |
| − | ===Devices, Methods, and Graphical User Interfaces for Capturing and Recording Media in Multiple Modes (18208836)===
| |
| | | | |
| − | '''Inventor''' | + | '''Main Inventor''' |
| | + | |
| | Matthew I. Brown | | Matthew I. Brown |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a device that has a camera user interface. The device displays a live view from a camera on its screen. If the device detects movement of a user's touch input on the screen, it will move the live view accordingly. Additionally, the device can display a second live view from another camera and move it based on the same user input.
| |
| | | | |
| − | '''Abstract'''
| + | ===Additive Coil Structure for Voice Coil Motor Actuator ([[US Patent Application 18331037. Additive Coil Structure for Voice Coil Motor Actuator simplified abstract|18331037]])=== |
| − | A device displays, in a first display region of a camera user interface, a first live view from a first camera. While displaying the first live view from the first camera, the device detects movement of a first user input (e.g., a first contact on a touch-sensitive surface). In accordance with a determination that the movement of the first user input meets first movement criteria, the device moves the first live view in the first display region in accordance with the movement of the first user input, displays a second live view from a second camera, and moves the second live view in the first display region in accordance with the movement of the first user input.
| |
| | | | |
| − | ===Additive Coil Structure for Voice Coil Motor Actuator (18331037)===
| |
| | | | |
| − | '''Inventor''' | + | '''Main Inventor''' |
| | + | |
| | Douglas S. Brodie | | Douglas S. Brodie |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a camera voice coil motor (VCM) actuator that uses an additive coil structure to move a lens in different directions. The coil structure is designed to surround the lens carrier and includes folded portions with coils and magnets. This structure is created using an additive process.
| |
| | | | |
| − | '''Abstract'''
| + | ===DIGITAL VIEWFINDER USER INTERFACE FOR MULTIPLE CAMERAS ([[US Patent Application 18207293. DIGITAL VIEWFINDER USER INTERFACE FOR MULTIPLE CAMERAS simplified abstract|18207293]])=== |
| − | Some embodiments include a camera voice coil motor (VCM) actuator that includes an additive coil structure for shifting a lens along one or multiple axes. The additive coil structure may include a base portion configured to couple with a lens carrier and at least partially surround a perimeter of the lens carrier. In various examples, the additive coil structure may include folded portions that individually include a respective coil that is located proximate a respective magnet. According to various embodiments, the additive coil structure may be formed using an additive process.
| + | |
| | | | |
| − | ===DIGITAL VIEWFINDER USER INTERFACE FOR MULTIPLE CAMERAS (18207293)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Jeffrey Traer BERNSTEIN | | Jeffrey Traer BERNSTEIN |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes an electronic device that has multiple cameras and displays a digital viewfinder user interface. The user interface allows users to preview visual information from the cameras. The cameras may have different properties, such as focal lengths. The device allows zooming over a range that includes the zoom ranges of both cameras. Users can choose which camera provides visual information to the viewfinder and which camera is used to capture the visual information. The user interface also allows the simultaneous display of content from different cameras. If there are two digital viewfinders, users can independently zoom, freeze, and pan one viewfinder without affecting the other. The device also allows users to store composite images and videos using both viewfinders and their corresponding cameras.
| |
| | | | |
| − | '''Abstract'''
| + | ===HEADPHONES WITH INCREASED BACK VOLUME ([[US Patent Application 18197672. HEADPHONES WITH INCREASED BACK VOLUME simplified abstract|18197672]])=== |
| − | An electronic device has multiple cameras and displays a digital viewfinder user interface for previewing visual information provided by the cameras. The multiple cameras may have different properties such as focal lengths. When a single digital viewfinder is provided, the user interface allows zooming over a zoom range that includes the respective zoom ranges of both cameras. The zoom setting to determine which camera provides visual information to the viewfinder and which camera is used to capture visual information. The user interface also allows the simultaneous display of content provided by different cameras at the same time. When two digital viewfinders are provided, the user interface allows zooming, freezing, and panning of one digital viewfinder independently of the other. The device allows storing of a composite images and/or videos using both digital viewfinders and corresponding cameras.
| + | |
| | | | |
| − | ===HEADPHONES WITH INCREASED BACK VOLUME (18197672)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Edward Siahaan | | Edward Siahaan |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract discusses different features that can be used in headphone designs. It mentions earpad assemblies that improve sound isolation, as well as user convenience features like automatically detecting the orientation of the headphones on a user's head. The abstract also mentions power-saving features, design features, sensor configurations, and user comfort features.
| |
| | | | |
| − | '''Abstract'''
| + | ===Setup Management for Ear Tip Selection Fitting Process ([[US Patent Application 18331808. Setup Management for Ear Tip Selection Fitting Process simplified abstract|18331808]])=== |
| − | This disclosure includes several different features suitable for use in circumaural and supra-aural headphones designs. Designs that include earpad assemblies that improve acoustic isolation are discussed. User convenience features that include automatically detecting the orientation of the headphones on a user's head are also discussed. Various power-saving features, design features, sensor configurations and user comfort features are also discussed.
| + | |
| | | | |
| − | ===Setup Management for Ear Tip Selection Fitting Process (18331808)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Kang Sun | | Kang Sun |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a method performed by a programmed processor in an in-ear headphone. The method involves obtaining a request from an audio source device to start a measurement process. In response, the headphone establishes a wireless connection with the source device and obtains an audio signal to drive its speaker and output sound. Based on the outputted sound, the headphone determines a fit parameter, which is then transmitted back to the source device.
| |
| | | | |
| − | '''Abstract'''
| + | ===MAINTENANCE OF WIRELESS DEVICES ([[US Patent Application 18332503. MAINTENANCE OF WIRELESS DEVICES simplified abstract|18332503]])=== |
| − | A method performed by a programmed processor of an in-ear headphone that is to be worn by a user. The method obtains, over a wireless communication link and via a first wireless connection that uses an accessory profile, a first request, from an audio source device, to start a measurement process. In response to obtaining the request, the method ) establishes, over the link, a second wireless connection that uses an audio distribution profile between the headphone and the source device, ) obtains, via the second wireless connection, an audio signal for driving a speaker of the headphone to output sound, ) responsive to the outputted sound, determining a fit parameter, and ) transmitting the fit parameter to the source device via the first wireless connection.
| + | |
| | | | |
| − | ===MAINTENANCE OF WIRELESS DEVICES (18332503)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Kenneth U. Victa | | Kenneth U. Victa |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a system where wireless devices and accessories that cannot connect to a network independently can be detected by other network-connected devices. These devices can then report the location of the detected device to a device location service. The wireless devices and accessories rely on nearby owner devices to perform periodic maintenance as they do not have their own network connections. The abstract introduces systems, methods, and associated devices that allow multiple owner devices to maintain a locatable wireless device.
| |
| | | | |
| − | '''Abstract'''
| + | ===METHOD AND APPARATUS FOR HANDOVER PROCEDURES ([[US Patent Application 17598229. METHOD AND APPARATUS FOR HANDOVER PROCEDURES simplified abstract|17598229]])=== |
| − | The presence of a wireless device and/or accessory that cannot maintain an independent network connection can be detected by network connected wireless devices and the location of the detected device and/or accessory can be reported to a device location service. As the wireless devices and/or accessories do not have independent network connections, periodic maintenance is performed on those devices by nearby owner devices to which the wireless devices and/or accessories are paired or associated. Described herein are systems, methods, and associated devices to maintain a locatable wireless device by a set of multiple owner devices for that wireless device.
| + | |
| | | | |
| − | ===METHOD AND APPARATUS FOR HANDOVER PROCEDURES (17598229)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Jie Cui | | Jie Cui |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for a user equipment (UE) to perform a handover (HO) to a target primary cell (PCell) and add a target secondary cell (PSCell). The method involves adjusting the radio frequency (RF) for the HO of the target PCell and the RF for the addition of the target PSCell based on specific reference signal (RS) occasions.
| |
| | | | |
| − | '''Abstract'''
| + | ===Non-Waking Maintenance of Near Owner State ([[US Patent Application 18050887. Non-Waking Maintenance of Near Owner State simplified abstract|18050887]])=== |
| − | Provided is a method for a user equipment (UE), comprising: performing, based on a command for a handover (HO) with a primary secondary cell (PSCell), an HO of a target primary cell (PCell) and an addition of a target PSCell; and adjusting a radio frequency (RF) for the HO of the target PCell according to a reference signal (RS) occasion for the HO of the target PCell, and an RF for the addition of the target PSCell according to an RS occasion for the addition of the target PSCell.
| + | |
| | | | |
| − | ===Non-Waking Maintenance of Near Owner State (18050887)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Benjamin A. Detwiler | | Benjamin A. Detwiler |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a mobile electronic device that can scan for a beacon advertisement broadcast by a nearby wireless device. The device can detect the advertisement, retrieve an identifier from it, and compare it to expected identifiers. Based on the result of this comparison, the device can send a timer reset packet and an authorization token to the wireless device, allowing a wireless accessory to remain in near-owner mode. After performing these actions, the device can go into sleep mode for a set amount of time.
| |
| | | | |
| − | '''Abstract'''
| + | ===Notification Support in Extended Discontinuous Reception Mode ([[US Patent Application 18330601. Notification Support in Extended Discontinuous Reception Mode simplified abstract|18330601]])=== |
| − | Embodiments described herein provide for a mobile electronic device including a a wireless network interface coupled to a bus, a memory device coupled to the bus, and one or more processors coupled to the bus, the one or more processors to execute instructions to perform a scan, via the wireless network interface, for a beacon advertisement that is broadcast by a wireless device within range of the wireless network interface, detect the beacon advertisement broadcast by the wireless device, retrieve an identifier broadcast within the beacon advertisement, based on a result of a comparison between the identifier to at least one expected identifier, selectively send a timer reset packet to the wireless device and an authorization token for the wireless accessory to remain in near-owner mode, and allow the one or more processors to sleep for a predetermined time.
| |
| | | | |
| − | ===Notification Support in Extended Discontinuous Reception Mode (18330601)===
| |
| | | | |
| − | '''Inventor''' | + | '''Main Inventor''' |
| | + | |
| | Murtaza A. Shikari | | Murtaza A. Shikari |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technology that supports notifications in a mode called extended discontinuous reception (eDRX). In this mode, a base station and a user equipment (UE) device can set up a communication configuration. During this communication, the network can receive an indication and store it in a cache. The network can then make changes to the device's DRX (discontinuous reception) configuration and send a wake-up signal. As a result, the UE device can receive the indication while still saving power through the eDRX configuration.
| |
| | | | |
| − | '''Abstract'''
| + | ===SYSTEM AND METHOD FOR NETWORK DYNAMIC ON/OFF SIGNALING ([[US Patent Application 18131742. SYSTEM AND METHOD FOR NETWORK DYNAMIC ON/OFF SIGNALING simplified abstract|18131742]])=== |
| − | Systems, apparatuses, and methods for notification support in extended discontinuous reception mode. A base station and UE may configure eDRX communication. An indication may be received during the eDRX communication. The network may cache the indication. The network may modify the DRX configuration. The network may use a wake up signal. In response, the UE may receive the indication while achieving power savings from the eDRX configuration.
| |
| | | | |
| − | ===SYSTEM AND METHOD FOR NETWORK DYNAMIC ON/OFF SIGNALING (18131742)===
| |
| | | | |
| − | '''Inventor''' | + | '''Main Inventor''' |
| | + | |
| | Sigen YE | | Sigen YE |
| | | | |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for a base station in a wireless communication system to enter a power-saving mode called "dynamic off period." This mode suspends downlink transmission and/or uplink reception. The abstract suggests two approaches for notifying a user equipment (UE) about this mode. In the first approach, the DCI message is modified to include new values that indicate the different power-saving states of the base station. In the second approach, a new notification message is defined. The notification signal may also include specific parameters related to the cell and beam, as well as an application delay that determines when the dynamic off period will start.
| |
| | | | |
| − | '''Abstract'''
| + | ===Retransmission of MsgB in Two-Step Random Access Procedure ([[US Patent Application 18334933. Retransmission of MsgB in Two-Step Random Access Procedure simplified abstract|18334933]])=== |
| − | An approach is described for a dynamic off period of a base station within a wireless communication environment and a process for notifying a UE of the same. In a first scenario, the DCI message is modified with newly-defined values indicative of the different power saving states (i.e., “dynamic off states”) of the base station. These power saving states may defined as suspending one or both of downlink transmission and uplink reception. In another scenario, a new notification message is defined. In either case, the notification signal may also include cell and/or beam specific parameters as well as an application delay that defines a start time of the dynamic off period.
| + | |
| | | | |
| − | ===Retransmission of MsgB in Two-Step Random Access Procedure (18334933)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Chunhai Yao | | Chunhai Yao |
| | | | |
| − | '''Brief explanation'''
| |
| − | This abstract describes a method for a wireless device to transmit a signal to a base station and then wait for a response. If the device does not receive a response, it will continue to monitor for any retransmissions of the response message. These retransmissions may be identified by a transmission number or by being partially scrambled using a unique identifier. The monitoring window may be extended to include these retransmissions. The retransmissions may contain the same information as the initial transmission or a reduced set of information as devices acknowledge successful receipt of their respective data.
| |
| | | | |
| − | '''Abstract'''
| + | ===Electronic Devices with Adaptive Device-to-Device Communication Switching ([[US Patent Application 18328621. Electronic Devices with Adaptive Device-to-Device Communication Switching simplified abstract|18328621]])=== |
| − | A wireless user equipment (UE) device may transmit a random access preamble to a base station, using a physical resource on an uplink signal. After failing to receive an initial transmission of a response message from the base station (BS), the UE device may monitor for one or more retransmissions of the response message. Each of the retransmission may include a corresponding transmission number. As an alternative, each of the retransmissions may be at least partially scrambled using a corresponding Radio Network Temporary Identifier (RNTI). As another alternative, a window for monitoring and RNTI calculation may be extended to include the one or more retransmissions. The successive retransmissions may include the same set of UE-specific payloads, or, a decreasing set of payloads over time as UE devices acknowledge successful receipt of their respective payloads.
| + | |
| | | | |
| − | ===Electronic Devices with Adaptive Device-to-Device Communication Switching (18328621)===
| + | '''Main Inventor''' |
| | | | |
| − | '''Inventor'''
| |
| | Jan K. Ellenbeck | | Jan K. Ellenbeck |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a communications network that includes a relay device. The relay device receives signals from other devices in a device-to-device (D2D) communication. The relay device can operate in two modes: ad hoc mode and organized mode. In the ad hoc mode, the relay device consumes low power and receives a small number of messages from a few transmitting devices. In the organized mode, the relay device consumes high power and receives many messages from multiple transmitting devices.
| |
| − |
| |
| − | The receiver on the relay device can switch between the ad hoc mode and the organized mode based on specific criteria. When a first criterion is met, the receiver transitions from the ad hoc mode to the organized mode. When a second switching criterion is met, the receiver transitions from the organized mode back to the ad hoc mode.
| |
| − |
| |
| − | This switching between modes allows the relay device to balance the load of communications and power consumption. It is particularly useful for relaying emergency messages received over D2D signals, as these messages may arrive infrequently or in clusters due to unexpected events.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A communications network may include a relay device that receives device-to-device (D2D) signals. In an ad hoc mode, the relay may consume relatively little power while receiving relatively few messages from relatively few transmitting devices in the D2D signals. In an organized mode, the device may consume relatively high power while receiving many messages from many transmitting devices in the D2D signals. A receiver on the device may transition from the ad hoc mode to the organized mode in response to a first criterion and may transition from the organized mode to the ad hoc mode in response to a second switching criterion. This may allow the device to balance communications load and power consumption while relaying messages such as emergency messages received over D2D signals given that the signals may arrive rarely or in clusters due to an unforeseen event.
| |
