Apple Inc. patent applications on September 5th, 2024
Patent Applications by Apple Inc. on September 5th, 2024
Apple Inc.: 27 patent applications
Apple Inc. has applied for patents in the areas of H04L5/00 (3), G06F3/01 (2), H04B1/00 (2), H04W52/02 (2), H04B7/06 (2) A61B5/316 (1), H04B1/0483 (1), H04W52/0238 (1), H04W36/0069 (1), H04W8/183 (1)
With keywords such as: device, wireless, user, display, input, based, include, electronic, information, and audio in patent application abstracts.
Patent Applications by Apple Inc.
20240293068. Seamlessly Embedded Heart Rate Monitor_simplified_abstract_(apple inc.)
Inventor(s): Gloria Lin of San Francisco CA (US) for apple inc., Taido L. Nakajima of San Jose CA (US) for apple inc., Pareet Rahul of Toronto (CA) for apple inc., Andrew B. Hodge of Palo Alto CA (US) for apple inc.
IPC Code(s): A61B5/316, A61B5/00, A61B5/024, A61B5/0245, A61B5/282, A61B5/332, A61B5/339
CPC Code(s): A61B5/316
Abstract: embodiments are directed to an electronic device having integrated sensors for detecting a user's cardiac electrical signals. the device can include a heart sensor having several leads for detecting a user's cardiac signals. the leads can be coupled to interior surfaces of the device housing to hide the sensor from view, and electrical signals generated by the user can be transmitted from the user's skin through the electronic device housing to the leads. in some embodiments, leads can be coupled to the exterior of the housing. the device can be finished so that the pads are integrated with the device to improve aesthetic qualities of the device. the electronic device can use the cardiac signals to identify or authenticate the user and perform operations based on the identity of the user. in some embodiments, the electronic device can provide data related to the user's mood based on the cardiac signals.
20240295457. SEAL-INTEGRITY DIAGNOSTIC SYSTEM_simplified_abstract_(apple inc.)
Inventor(s): Ankur AGRAWAL of Santa Clara CA (US) for apple inc., Krishna Prasad VUMMIDI MURALI of Sunnyvale CA (US) for apple inc., Michael J. GLICKMAN of Mountain View CA (US) for apple inc., Roberto M. RIBEIRO of Sunnyvale CA (US) for apple inc., Terrance P. KAO of Saratoga CA (US) for apple inc., Vincenzo COSTANZA of San Diego CA (US) for apple inc.
IPC Code(s): G01M3/32, G01M13/005
CPC Code(s): G01M3/3272
Abstract: an apparatus of the subject technology includes a housing, a first sensor to obtain a first measurement, an optional second sensor to obtain a second measurement, and a processor to determine a seal-quality metric of the housing based on the first measurement and the second measurement. the first sensor can include an internal pressure sensor disposed inside the housing, and the first measurement can include measurement of an internal pressure of the housing. the second sensor can include an external pressure sensor disposed at an outside wall of the housing, and the second measurement can include measurement of an external pressure.
20240295740. FACE ENGAGING STRUCTURE_simplified_abstract_(apple inc.)
Inventor(s): Shannon Pomeroy of San Francisco CA (US) for apple inc.
IPC Code(s): G02B27/01
CPC Code(s): G02B27/0176
Abstract: a head-mountable device can include: a display portion including a display; a pneumatic facial interface; and a securement assembly connectable to the display portion. in some examples, the securement assembly includes: a removable strap comprising an electronics pod; and a retention band connectable to the removable strap.
20240295900. ADJUSTABLE MOUNT_simplified_abstract_(apple inc.)
Inventor(s): Shannon Pomeroy of San Francisco CA (US) for apple inc., Samuel O. Schneider of Sacramento CA (US) for apple inc.
IPC Code(s): G06F1/16
CPC Code(s): G06F1/1607
Abstract: a head-wearable apparatus can include a head-mountable display, a head mount positionable onto a human head, a tension adjustment actuator integrated with the head mount, and an arm connectable to the hmd and the head mount. in some examples, the arm includes an hmd tilt adjustment member, and hmd eye relief adjustment member, and an hmd height adjustment member.
20240295948. MUSIC USER INTERFACE_simplified_abstract_(apple inc.)
Inventor(s): Lawrence Y. YANG of Bellevue WA (US) for apple inc., Anton M. DAVYDOV of Gilroy CA (US) for apple inc., Alan C. DYE of San Francisco CA (US) for apple inc., Christopher Patrick FOSS of San Francisco CA (US) for apple inc., David Chance GRAHAM of Columbus OH (US) for apple inc., Jonathan P. IVE of San Francisco CA (US) for apple inc., Stephen O. LEMAY of Palo Alto CA (US) for apple inc.
IPC Code(s): G06F3/0482, G06F3/01, G06F3/042, G06F3/0481, G06F3/04842, G06F3/04847, G06F3/0488, G06F3/04883, G06F16/64, H04N21/41, H04N21/422, H04N21/478, H04N21/482, H04N21/81
CPC Code(s): G06F3/0482
Abstract: the present disclosure relates to music user interfaces. a device, comprising a display and a rotatable input mechanism, one or more processors, memory, and one or more programs, is described. in response to receiving the first user input, the one or more programs may include instructions for ceasing display of an audio playback user interface and displaying a first user interface of a first set of user interfaces. while displaying the user interface of the first user interfaces, the one or more programs may include instructions for: receiving a second user input representing a directional swipe in a second direction and, in response to receiving the second user input, ceasing display of the first user interface of a first set of user interfaces and displaying the audio playback user interface.
Inventor(s): Gemma A. Roper of San Francisco CA (US) for apple inc., David H. Bloom of San Francisco CA (US) for apple inc., Benjamin G. Jackson of Piedmont CA (US) for apple inc., Steven J. Taylor of San Jose CA (US) for apple inc., Megan M. Sapp of Napa CA (US) for apple inc., Samuel L. Iglesias of Palo Alto CA (US) for apple inc.
IPC Code(s): G06F3/0487
CPC Code(s): G06F3/0487
Abstract: an electronic device includes a display. the electronic device detects an input along a device edge. in response to detecting the input and in accordance with a determination that the input meets one or more criteria and is detected at a first input location, the device displays a user interface at a first display location on the display that corresponds to the first input location. in response to detecting the input and in accordance with a determination that the input meets the one or more criteria and is detected at a second input location, the device displays the user interface at a second display location on the display that corresponds to the second input location. while the user interface is displayed, the device detects another input and, in response, the device adjusts a parameter for a function represented in the user interface in accordance with the other input.
20240295976. Memory Calibration and Margin Check_simplified_abstract_(apple inc.)
Inventor(s): Robert E. Jeter of Santa Clara CA (US) for apple inc., Jingkui Zheng of Santa Clara CA (US) for apple inc., Ritesh J. Shah of Sunnyvale CA (US) for apple inc., Veera Chockalingam of Santa Clara CA (US) for apple inc., Naveen Kumar Korada of Round Rock TX (US) for apple inc.
IPC Code(s): G06F3/06, G11C11/4076, G11C11/4096, G11C29/50
CPC Code(s): G06F3/0632
Abstract: memory calibration with a margin check is disclosed. a memory subsystem includes a memory and a memory controller coupled to the memory. the memory controller includes a calibration circuit configured to perform, during an initialization process, horizontal memory calibrations for ones of a plurality of performance states and to determine and store, in a storage circuit, information indicative of a set of differences between calibration results for pairs of the plurality of performance states. the memory controller is further configured to, subsequent to the initialization process and in response to a change from a first one of the plurality of performance states to a second one of the plurality of performance states set initial memory parameters for the second performance state based on the set of differences. thereafter, operation begins in the second performance state without performing an initial horizontal calibration.
20240296002. Head-Mounted Device With Publicly Viewable Display_simplified_abstract_(apple inc.)
Inventor(s): Jonathan P. Ive of San Francisco CA (US) for apple inc.
IPC Code(s): G06F3/14, G06F3/01, G06F3/147, G06T11/60, H04N5/445, H04N23/60
CPC Code(s): G06F3/1423
Abstract: a head-mounted device may be worn on the face of a user. the head-mounted device may include a user-viewable display that presents inwardly directed user-viewable images such as virtual reality images to the user. the head-mounted device may also have a publicly viewable display that presents publicly viewable images to individuals near the user. the publicly viewable images may overlap facial features of the user's face. publicly viewable images may include captured images of user facial features or other content, may include computer-generated graphics such as user facial feature graphics, may contain a mixture of captured image content and overlaid graphics such as user facial feature graphics, or may contain other publicly viewable content. user monitoring sensors such as camera and gaze detection sensors, environmental sensors, and other circuitry in the head-mounted device may gather information that is used in adjusting the publicly viewable images.
Inventor(s): Olivier PINON of Santa Clara CA (US) for apple inc., Afshin TAGHAVI NASRABADI of Los Gatos CA (US) for apple inc., Maneli NOORKAMI of Menlo Park CA (US) for apple inc.
IPC Code(s): G06F3/14, G06T19/00
CPC Code(s): G06F3/1454
Abstract: cross-platform sharing of displayed content is provided. in one or more implementations, cross-platform sharing of display content may include displaying a first rendering of display content with a first display of a first device, and, responsive to a request to capture and/or share the displayed content, generating a second rendering of the display content, the second rendering different from the first rendering. the second rendering may be different from the first rendering in such a way that, when the second rendering is displayed by a second display of a second device having a different form factor and/or display technology, the displayed second rendering accurately represents the perceived view of the user of the first device.
Inventor(s): Cecile M. FORET of Palo Alto CA (US) for apple inc., Xiaozhong YAO of Cupertino CA (US) for apple inc., Sundararaman HARIHARASUBRAMANIAN of Santa Clara CA (US) for apple inc.
IPC Code(s): G06N3/10, G06F8/41, G06F17/16
CPC Code(s): G06N3/10
Abstract: the subject technology receives code corresponding to a neural network (nn) model and a set of weights for the nn model. the subject technology determines a set of layers that are mutable in the nn model. the subject technology determines information for mapping a second set of weights to the set of weights for the nn model. the subject technology generates metadata corresponding to the set of layers that are mutable, and the information for mapping the second set of weights to the set of weights for the nn model, wherein the generated metadata enables updating the set of layers that are mutable during execution of the nn model.
20240296435. GROUP PEER-TO-PEER FINANCIAL TRANSACTIONS_simplified_abstract_(apple inc.)
Inventor(s): Gloria LIN of San Francisco CA (US) for apple inc., Amir Mahmood MIKHAK of Cambridge MA (US) for apple inc., Taido Lantz NAKAJIMA of San Jose CA (US) for apple inc., Sean Anthony MAYO of Sunnyvale CA (US) for apple inc., Michael ROSENBLATT of Boulder CO (US) for apple inc.
IPC Code(s): G06Q20/22, G06Q20/32, G06Q20/40, G06Q40/02
CPC Code(s): G06Q20/223
Abstract: in accordance with some embodiments, user interfaces for displaying a transfer request, detecting user input directed to initiating a transfer corresponding to the request, and receiving authentication information to authorize the transfer corresponding to the request are described.
Inventor(s): Michael Ignazio Ingrassia, JR. of San Jose CA (US) for apple inc., Nathaniel P. Hramits of San Jose CA (US) for apple inc.
IPC Code(s): G08B13/14, G08B21/02, G08B21/24
CPC Code(s): G08B13/1427
Abstract: devices and methods for locating accessories of an electronic device are provided. in one example, a method may include detecting parameters associated with disconnecting an accessory from the electronic device. the electronic device, or an associated device, may store the detected parameters so that the detected parameters are accessible if the accessory becomes lost. the electronic device may receive a request from a user of the electronic device for assistance in locating the accessory. in response to the request for assistance in locating the accessory, the electronic device may provide the stored parameters to the user of the electronic device to aid them in searching for their lost accessory.
Inventor(s): Zaki Moussaoui of Micco FL (US) for apple inc., Zelin Xu of San Jose CA (US) for apple inc., Matthew J. Chabalko of Salinas CA (US) for apple inc., Nan Liu of Sunnyvale CA (US) for apple inc.
IPC Code(s): H01F27/24, H01F38/14, H02J7/02, H02J50/12, H02J50/90
CPC Code(s): H01F27/24
Abstract: an electronic device in a wireless power system may be operable with a removable accessory such as a case. the device may convey wireless power to, from, or through the case while the device is coupled to the case. the device may have coplanar power transmitting and power receiving coils. the removable accessory may have an embedded switchable ferrimagnetic core and a coil that overlaps the switchable ferrimagnetic core. the switchable ferrimagnetic core may be operable in a first state where the switchable ferrimagnetic core is unsaturated. the switchable ferrimagnetic core may be operable in a second state where the switchable ferrimagnetic core is saturated by a magnetic field from a permanent magnet in a wireless power transmitting device. in the second state, the switchable ferrimagnetic core may have a lower magnetic permeability and higher magnetic reluctance than in the first state.
Inventor(s): Wassim El-Hassan of San Jose CA (US) for apple inc., Brian H Bremer of Arlington Heights IL (US) for apple inc., Lydi Smaini of San Jose CA (US) for apple inc., Abhinav Dayal of San Jose CA (US) for apple inc., Daphne I Gorman of San Jose CA (US) for apple inc., Xuefeng Zhao of San Jose CA (US) for apple inc., Kai Bai of San Jose CA (US) for apple inc.
IPC Code(s): H04B1/00, H03F3/19
CPC Code(s): H04B1/0064
Abstract: wireless communication circuitry includes a single transmission pathway for transmitting radio frequency signals in different frequency bands used for communicating on different types of wireless networks.
20240297672. DISTRIBUTED-ELEMENT FILTER FOR MMWAVE FREQUENCIES_simplified_abstract_(apple inc.)
Inventor(s): Xiaofang Mu of San Jose CA (US) for apple inc., Bo Zhang of San Jose CA (US) for apple inc., Mingjuan Zhu of Saratoga CA (US) for apple inc., Chi V. Pham of San Jose CA (US) for apple inc., Berke Cetinoneri of Palo Alto CA (US) for apple inc., Timothy B. Ogilvie of San Jose CA (US) for apple inc.
IPC Code(s): H04B1/04, H04B1/00, H04B1/52
CPC Code(s): H04B1/0483
Abstract: frequency-filtering circuitry is disclosed that rejects power of a wireless signal having an undesired frequency while causing a decreased power loss to a wireless signal having a desired frequency using distributed elements, rather than lumped elements. the frequency-filtering circuitry may reject at least 5 decibels of power of a wireless signal having a frequency over 32 gigahertz, while causing a power loss of at most 1.1 decibels to a wireless signal having a frequency lower than 29.5 gigahertz. the frequency-filtering circuitry may include a main branch, a first parallel branch coupled and parallel to the main branch via a first connecting trace, and a second parallel branch coupled and parallel to the main branch via a second connecting trace. the first connecting trace intersects the main branch and the first parallel branch, and the second connecting trace intersects the main branch and the second parallel branch.
20240297705. NR SSB Measurements with CCA for 60GHz Range_simplified_abstract_(apple inc.)
Inventor(s): Xiang Chen of Cupertino CA (US) for apple inc., Jie Cui of San Jose CA (US) for apple inc., Dawei Zhang of Saratoga CA (US) for apple inc., Hong He of Cupertino CA (US) for apple inc., Huaning Niu of Cupertino CA (US) for apple inc., Manasa Raghavan of Sunnyvale CA (US) for apple inc., Oghenekome Oteri of San Diego CA (US) for apple inc., Qiming Li of Beijing (CN) for apple inc., Yang Tang of San Jose CA (US) for apple inc.
IPC Code(s): H04B7/06, H04B17/318, H04W24/08, H04W24/10, H04W56/00, H04W74/0816, H04W76/28
CPC Code(s): H04B7/06952
Abstract: methods, apparatuses, and systems are disclosed for compensating for cell identification delays that are beyond the control of the ue, in connection with standards-specified cell identification timing limits. in frequency bands including both beam sweeping and listen-before-talk (lbt) requirements, a cell identification procedure may be significantly delayed due to lbt failure at the base station and/or beam misalignment between the base station and the ue. therefore, ue cell identification timing constraints may be dynamically adjusted to compensate for such delays. for example, the time window allowed for cell identification of a neighbor cell may be dynamically increased in response to determining that one or more ssbs were not available at the ue during an smtc occasion. in some scenarios, if the timing increase exceeds a predetermined threshold, the ue may restart the cell identification procedure, e.g., on the same frequency layer or on a different frequency layer.
Inventor(s): Joachim S. Hammerschmidt of Mountain View CA (US) for apple inc., Eren Sasoglu of Mountain View CA (US) for apple inc., Santhoshkumar Mani of Santa Clara CA (US) for apple inc.
IPC Code(s): H04L5/00, H04L25/02, H04W72/0446, H04W72/0453
CPC Code(s): H04L5/0048
Abstract: systems, methods, and computer-readable medium are provided for utilizing a hybrid of ultra-wideband (uwb) and narrowband (nb) signaling to provide more efficient operating range and operating efficiency. for example, a first device may schedule transmission of a packet via a narrowband signal to a second device. the first device may then transmit the packet, whereby the packet conveys synchronization data that is used by the second device to schedule reception of a plurality of fragments, respectively, via an ultra-wideband (uwb) signal. the first device may then schedule and transmit the plurality of segments to the second device via the ultra-wideband signals, each fragment being time-spaced from other fragments of the plurality of fragments by at least a predefined time interval.
Inventor(s): Bishwarup Saso MONDAL of Cupertino CA (US) for apple inc., Prerana RANE of Cupertino CA (US) for apple inc., Yongjun KWAK of Cupertino CA (US) for apple inc., Daewon LEE of Cupertino CA (US) for apple inc.
IPC Code(s): H04L5/00, H04B7/06, H04W72/044
CPC Code(s): H04L5/005
Abstract: disclosed herein are system, method, and computer program product embodiments for performing synchronization single block (ssb) transmission using a number of ssb beams. an embodiment operates by determining a ssb index for a ssb based on a candidate position in a set of candidate positions and the number of ssb beams. the embodiment determines a shift value for the ssb index based on the candidate position and the number of ssb beams. the embodiment determines a frame timing for the ssb based the ssb index and the shift value for the ssb index. the embodiment then transmits, by radio front end circuitry, the ssb to a user equipment (ue) based on the frame timing for the ssb.
Inventor(s): Hong HE of San Jose CA (US) for apple inc., Chunxuan YE of San Diego CA (US) for apple inc., Dawei ZHANG of Saratoga CA (US) for apple inc., Haitong SUN of Cupertino CA (US) for apple inc., Huaning NIU of San Jose CA (US) for apple inc., Seyed Ali Akbar FAKOORIAN of San Diego CA (US) for apple inc., Sigen YE of San Diego CA (US) for apple inc., Wei ZENG of Saratoga CA (US) for apple inc., Weidong YANG of San Diego CA (US) for apple inc., Yushu ZHANG of Beijing (CN) for apple inc.
IPC Code(s): H04L5/16, H04W74/0838
CPC Code(s): H04L5/16
Abstract: a user equipment (ue) is configured to determine that half-duplex frequency division duplex (hd-fdd) is enabled by a network with which the ue is communicating, identify a collision between a cell-specific downlink reception and a cell-specific uplink transmission and implement a hd-fdd collision handling technique. a ue may also be configured to determine that half-duplex frequency division duplex (hd-fdd) is enabled by a network with which the ue is communicating, perform a first cell-specific uplink transmission at a first time and perform a first cell-specific downlink reception at a second time, wherein a guard period represents a time duration between the first time and the second time during which the ue is not to perform a second different cell-specific uplink transmission or a second different cell-specific downlink reception.
Inventor(s): Muge Wang of San Jose CA (US) for apple inc., William T. Warner of Sunnyvale CA (US) for apple inc., David R. Pope of Campbell CA (US) for apple inc.
IPC Code(s): H04N1/60, G06T3/00, G06T3/40, G06T5/00, G06T7/90, G06V10/56, G06V10/60, H04N9/69
CPC Code(s): H04N1/6019
Abstract: an image processing circuit for performing local tone mapping (ltm) after image warping. the image processing circuit includes a warping circuit that warps an input image to generate a warped image, and a ltm circuit coupled to the warping circuit. the ltm circuit determines an input color component value for a color component of a pixel in a version of the warped image, determines an output color component value for the color component of the pixel, based on mapping of coordinates of pixels in the warped image to coordinates of pixels in the input image, determines a gain value for the pixel as a ratio of the output color component value relative to the input color component value, and adjusts color component values for color components of the pixel using the gain value to generate adjusted color component values for the color components of the pixel in an output image.
20240298112. Un-Tethered Wireless Audio System_simplified_abstract_(apple inc.)
Inventor(s): Clarke S. WATSON of San Carlos CA (US) for apple inc., Benjamin W. COOK of San Francisco CA (US) for apple inc., Axel D. BERNY of Los Gatos CA (US) for apple inc., Jason A. TRACHEWSKY of Cupertino CA (US) for apple inc.
IPC Code(s): H04R3/12, H04L1/00, H04L1/16, H04R3/00, H04R5/02, H04R5/04, H04W4/50, H04W4/80
CPC Code(s): H04R3/12
Abstract: a wireless speaker audio system configured to receive audio information wirelessly transmitted by an audio source including first and second wireless transceivers. the first wireless transceiver establishes a bidirectional secondary wireless link with the audio source for receiving and acknowledging receipt of the audio information. the first and second wireless transceivers communicate with each other via a primary wireless link. a wireless audio system including an audio source and first and second wireless transceivers. the first and second wireless transceivers communicate via a primary wireless link. the audio source communicates audio information to the first wireless transceiver via a secondary wireless link which is configured according to a standard wireless protocol. the first wireless transceiver is configured to acknowledge successful reception of audio information via the secondary wireless link. other embodiments are also described and claimed.
Inventor(s): David Thall of Palo Alto CA (US) for apple inc., Christopher A. Wolfe of San Jose CA (US) for apple inc., James E. McCartney of San Jose CA (US) for apple inc.
IPC Code(s): H04S7/00
CPC Code(s): H04S7/303
Abstract: an audio engine is provided for acoustically rendering a three-dimensional virtual environment. the audio engine uses geometric volumes to represent sound sources and any sound occluders. a volumetric response is generated based on sound projected from a volumetric sound source to a listener, taking into consideration any volumetric occluders in-between. the audio engine also provides for modification of a level of detail of sound over time based on distance between a listener and a sound source. other aspects are also described and claimed.
Inventor(s): Robert W. Brumley of San Jose CA (US) for apple inc., Peter C. Tsoi of San Jose CA (US) for apple inc., Yagil Burowski of Glendale CA (US) for apple inc.
IPC Code(s): H04W4/02, H04W72/0446
CPC Code(s): H04W4/023
Abstract: certain embodiments are directed to techniques (e.g., a device, a method, a memory or non-transitory computer readable medium storing code or instructions executable by one or more processors) for communication techniques between an electronic device (e.g., a smart speaker, a smart tv, a smart appliance, etc.) and one or more mobile devices (e.g., a smartphone, a tablet, a wearable device etc.). techniques can vary the rate the mobile device responds to ranging messages based on one or more factors. these factors can include a state of the mobile device (e.g., awake or asleep), mobile device orientation (e.g., face down), application state (e.g., music app active), motion of the mobile device (e.g., at rest for period of time), and a range (distance/angle) between the mobile device and the speaker to conserve battery life. the range to the electronic device can activate one or more features on the mobile device.
20240298165. Receive Operation Mode Indication for Power Save_simplified_abstract_(apple inc.)
Inventor(s): Chiu Ngok E. Wong of San Jose CA (US) for apple inc., Christiaan A. Hartman of San Jose CA (US) for apple inc., Zheng Zeng of Mountain View CA (US) for apple inc., Joonsuk Kim of Saratoga CA (US) for apple inc., Su Khiong Yong of Palo Alto CA (US) for apple inc., Yong Liu of Campbell CA (US) for apple inc.
IPC Code(s): H04W8/18, H04L69/22, H04W52/02, H04W84/12
CPC Code(s): H04W8/183
Abstract: embodiments described herein relate to a system and method for providing flexible receiver configuration in wireless communication systems, such as 802.11 wlan systems. in one embodiment, a wireless device may transmit a first data frame including first configuration information specifying a first configuration of the receiver to notify a remote device that the wireless device intends to configure its receiver according to the first configuration. after receiving an acknowledgement frame confirming the first configuration information, the wireless device may configure the receiver according to the first configuration. in another embodiment, a wireless device may receive a first data frame including first configuration information and further including a request that the wireless device configure its receiver according to the first configuration. in response, the wireless device may configure the receiver according to the first configuration. in either case, the wireless device may receive subsequent communications according to the first configuration.
Inventor(s): Candy Yiu of Portland OR (US) for apple inc.
IPC Code(s): H04W36/00
CPC Code(s): H04W36/0069
Abstract: techniques to configure a ue for a multi-connectivity handover with a source base station (sbs) and a target base station (tbs) include encoding ue capability information for transmission to the sbs, the ue capability information indicating the ue supports multi-connectivity handover. a measurement report is encoded for transmission to the sbs, the measurement report triggered based on a measurement event configured by the sbs. rrc signaling is received from the sbs and includes a handover command for a multi-connectivity handover from the sbs to the tbs. the handover command is in response to the measurement report and the ue capability information. first ul data and second ul data are encoded for transmission during the multi-connectivity handover. the first ul data is encoded for transmission to the sbs and the second ul data is encoded for transmission to the tbs during the multi-connectivity handover.
Inventor(s): Shravan Kumar Raghunathan of San Diego CA (US) for apple inc., Ajay Singh of San Jose CA (US) for apple inc., Guillaume Monghal of San Diego CA (US) for apple inc., Maheedhar Gollamudi of San Diego CA (US) for apple inc., Pradeep S Sharma of Cupertino CA (US) for apple inc., Reda Salem of Hallbergmoos (DE) for apple inc.
IPC Code(s): H04W52/02, H04L5/00, H04W72/02
CPC Code(s): H04W52/0238
Abstract: a user equipment device may include a radio that conveys wireless data with one or more base stations using a set of component carriers (ccs) that are concurrently-active under a carrier aggregation scheme or a dual connectivity scheme. when in a thermally-constrained state, a resource manager on the radio may intelligently select a cc to drop from use in conveying the wireless data. the resource manager may select the cc to drop based on the bandwidths, data rates, error rates, and/or activation/deactivation rates of the set of ccs, a power budget assigned to the radio, and/or information about the demodulation and decoding clusters in a modem of the radio. selecting the cc to drop in this way may provide greater power and temperature reduction at the radio and/or less wireless performance reduction than blindly dropping the most recently added cc from use in conveying the wireless data.
20240298337. Enhanced Sidelink Sensing and Resource Allocation_simplified_abstract_(apple inc.)
Inventor(s): Chunxuan Ye of San Diego CA (US) for apple inc., Dawei Zhang of Saratoga CA (US) for apple inc., Wei Zeng of Saratoga CA (US) for apple inc., Haitong Sun of Cupertino CA (US) for apple inc., Weidong Yang of San Diego CA (US) for apple inc., Hong He of San Jose CA (US) for apple inc., Seyed Ali Akbar Fakoorian of San Diego CA (US) for apple inc., Yushu Zhang of Beijing (CN) for apple inc., Chunhai Yao of Beijing (CN) for apple inc., Jie Cui of San Jose CA (US) for apple inc.
IPC Code(s): H04W72/40
CPC Code(s): H04W72/40
Abstract: techniques for power savings by a wireless device. the technique including determining, by a first wireless device, a sidelink resources pool including a set of sidelink resources for communicating directly with a second wireless device; determining one or more reservation periods associated with resources of the sidelink resources pool; determining a number of sensing occasions based on the one or more reservation periods; sensing a wireless medium within the sidelink resources pool based on the determined number of sensing occasions and the determined one or more reservation periods; selecting a set of candidate resources from the sidelink resources pool based on the sensing; and transmitting data to the second wireless device based on the selected set of candidate resources.
- Apple Inc.
- A61B5/316
- A61B5/00
- A61B5/024
- A61B5/0245
- A61B5/282
- A61B5/332
- A61B5/339
- CPC A61B5/316
- Apple inc.
- G01M3/32
- G01M13/005
- CPC G01M3/3272
- G02B27/01
- CPC G02B27/0176
- G06F1/16
- CPC G06F1/1607
- G06F3/0482
- G06F3/01
- G06F3/042
- G06F3/0481
- G06F3/04842
- G06F3/04847
- G06F3/0488
- G06F3/04883
- G06F16/64
- H04N21/41
- H04N21/422
- H04N21/478
- H04N21/482
- H04N21/81
- CPC G06F3/0482
- G06F3/0487
- CPC G06F3/0487
- G06F3/06
- G11C11/4076
- G11C11/4096
- G11C29/50
- CPC G06F3/0632
- G06F3/14
- G06F3/147
- G06T11/60
- H04N5/445
- H04N23/60
- CPC G06F3/1423
- G06T19/00
- CPC G06F3/1454
- G06N3/10
- G06F8/41
- G06F17/16
- CPC G06N3/10
- G06Q20/22
- G06Q20/32
- G06Q20/40
- G06Q40/02
- CPC G06Q20/223
- G08B13/14
- G08B21/02
- G08B21/24
- CPC G08B13/1427
- H01F27/24
- H01F38/14
- H02J7/02
- H02J50/12
- H02J50/90
- CPC H01F27/24
- H04B1/00
- H03F3/19
- CPC H04B1/0064
- H04B1/04
- H04B1/52
- CPC H04B1/0483
- H04B7/06
- H04B17/318
- H04W24/08
- H04W24/10
- H04W56/00
- H04W74/0816
- H04W76/28
- CPC H04B7/06952
- H04L5/00
- H04L25/02
- H04W72/0446
- H04W72/0453
- CPC H04L5/0048
- H04W72/044
- CPC H04L5/005
- H04L5/16
- H04W74/0838
- CPC H04L5/16
- H04N1/60
- G06T3/00
- G06T3/40
- G06T5/00
- G06T7/90
- G06V10/56
- G06V10/60
- H04N9/69
- CPC H04N1/6019
- H04R3/12
- H04L1/00
- H04L1/16
- H04R3/00
- H04R5/02
- H04R5/04
- H04W4/50
- H04W4/80
- CPC H04R3/12
- H04S7/00
- CPC H04S7/303
- H04W4/02
- CPC H04W4/023
- H04W8/18
- H04L69/22
- H04W52/02
- H04W84/12
- CPC H04W8/183
- H04W36/00
- CPC H04W36/0069
- H04W72/02
- CPC H04W52/0238
- H04W72/40
- CPC H04W72/40