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公开(公告)号:US20240224376A1
公开(公告)日:2024-07-04
申请号:US17910341
申请日:2021-09-24
Applicant: Apple Inc.
Inventor: Weidong Yang , Arjun Bharadwaj , Dawei Zhang , Fangli Xu , Haijing Hu , Hong He , Huaning Niu , Lakshmi Iyer , Murali Narasimha , Ralf Rossbach , Sarma V. Vangala , Sigen Ye , Wei Zeng , Oghenekome Oteri , Haitong Sun , Chunxuan Ye , Chunhai Yao , Yushu Zhang
IPC: H04W76/28 , H04L1/1829 , H04L5/00 , H04W72/231
CPC classification number: H04W76/28 , H04L1/1854 , H04L5/0055 , H04W72/231
Abstract: Provided is a method for a user equipment (UE). The UE obtains a first control information from a network device. The first control information indicates at least one physical downlink control channel (PDCCH) monitoring period for the UE. The UE further monitors PDCCH based on the at least one PDCCH monitoring period.
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公开(公告)号:US20240188073A1
公开(公告)日:2024-06-06
申请号:US18524050
申请日:2023-11-30
Applicant: Apple Inc.
Inventor: Neha Goel , Ralph Hasholzner , Lakshmi Iyer , Mikhail Wilhelm , Murali Narasimha , Arjun Bharadwaj
IPC: H04W72/1268 , H04W28/02
CPC classification number: H04W72/1268 , H04W28/0278 , H04W88/02
Abstract: An application may provide prebooking information for multiple packet streams to a baseband processor. The prebooking information may include some or all of a first packet stream and information describing one or more additional packet streams. The baseband processor may generate a buffer status report (BSR) corresponding to multiple packet streams to the extent that the data for the packet streams are to arrive at the baseband processor prior to the a preconfigured duration (e.g., the baseband processor receiving a dynamic grant (DG) from the base station). In this sense, application data may be prebooked, by the baseband processor and/or base station, before actually arriving at the baseband processor. These and many other examples and techniques described herein, including the use of dummy packets for a DG, managing DGs based on dummy packets, and more.
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公开(公告)号:US20220312459A1
公开(公告)日:2022-09-29
申请号:US17437225
申请日:2020-08-05
Applicant: Apple Inc.
Inventor: Weidong Yang , Arjun Bharadwaj , Yushu Zhang , Dawei Zhang , Haitong Sun , Chunhai Yao , Hong He , Chunxuan Ye , Oghenekome Oteri , Sigen Ye , Wei Zeng , Ralf Rossbach
Abstract: Improved configured grants (CGs) may include the designation of a footprint corresponding to uplink transmission of a UE, with the footprint at least partially defined by the occupied transmission time, occupied transmission frequency, and transmission power. The footprint may be adjustable and/or selectable by the UE according to the current traffic needs of the UE and within limits set for the footprint via prior signaling from the base station to the UE. The actual footprint parameters/values for the UE's uplink data transmissions may be received by the base station as part of CG uplink control information (CG-UCI) received from the UE. The base station may receive the CG-UCI over resources configured according to additional parameter values transmitted to the UE via the prior signaling from the base station. The base station may further receive uplink data on resources configured according to the actual footprint values.
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公开(公告)号:US20220304042A1
公开(公告)日:2022-09-22
申请号:US17442117
申请日:2020-08-05
Applicant: Apple Inc.
Inventor: Weidong Yang , Arjun Bharadwaj , Yushu Zhang , Dawei Zhang , Haitong Sun , Chunhai Yao , Hong He , Chunxuan Ye , Oghenekome Oteri , Sigen Ye , Wei Zeng , Ralf Rossbach
Abstract: Improved configured grants (CGs) may include the designation of a footprint corresponding to uplink transmission of a UE, with the footprint at least partially defined by the occupied transmission time, occupied transmission frequency, and transmission power. The footprint may be adjustable and/or selectable by the UE according to the current traffic needs of the UE and within limits set for the footprint via prior signaling from the base station to the UE. The UE may indicate the actual footprint parameters/values for the UE's uplink data transmissions by transmitting CG uplink control information (CG-UCI) inclusive of the actual footprint values to the base station. The UE may transmit the CG-UCI over resources configured according to additional parameter values received via the prior signaling from the base station. The UE may further transmit uplink data on resources configured according to the actual footprint values.
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公开(公告)号:US11991695B2
公开(公告)日:2024-05-21
申请号:US17598247
申请日:2020-10-23
Applicant: Apple Inc.
Inventor: Weidong Yang , Arjun Bharadwaj , Chunhai Yao , Chunxuan Ye , Dawei Zhang , Haitong Sun , Hong He , Huaning Niu , Oghenekome Oteri , Seyed Ali Akbar Fakoorian , Sigen Ye , Wei Zeng , Yushu Zhang
CPC classification number: H04W72/1273 , H03M13/136 , H04W24/08 , H04W76/20
Abstract: A method and apparatus of a device that handles time-varying packet size in the downlink. In some embodiments, the method performed by a user equipment (UE) comprises: receiving a first signaling comprising configuration of downlink (DL) Semi-Persistent Scheduling (SPS), wherein the DL SPS configuration comprises a periodicity of the DL SPS and a first indication for a first physical layer resource, and wherein the first physical layer resource is used to dynamically modify size of a second physical layer resource for SPS DL data transmission; receiving a second signaling that activates reception based on the DL SPS, wherein the second signaling comprises information to specify a boundary of the second physical layer resource; monitoring the first physical layer resource on each SPS occasion based on the periodicity to decode a second indication; determining the size of the second physical layer resource for SPS DL data transmission, based on the second indication; and receiving data on the second physical layer resource determined for each SPS occasion based on the determined size.
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公开(公告)号:US12133232B2
公开(公告)日:2024-10-29
申请号:US17442117
申请日:2020-08-05
Applicant: Apple Inc.
Inventor: Weidong Yang , Arjun Bharadwaj , Yushu Zhang , Dawei Zhang , Haitong Sun , Chunhai Yao , Hong He , Chunxuan Ye , Oghenekome Oteri , Sigen Ye , Wei Zeng , Ralf Rossbach
IPC: H04W72/23 , H04W72/1268
CPC classification number: H04W72/23 , H04W72/1268
Abstract: Improved configured grants (CGs) may include the designation of a footprint corresponding to uplink transmission of a UE, with the footprint at least partially defined by the occupied transmission time, occupied transmission frequency, and transmission power. The footprint may be adjustable and/or selectable by the UE according to the current traffic needs of the UE and within limits set for the footprint via prior signaling from the base station to the UE. The UE may indicate the actual footprint parameters/values for the UE's uplink data transmissions by transmitting CG uplink control information (CG-UCI) inclusive of the actual footprint values to the base station. The UE may transmit the CG-UCI over resources configured according to additional parameter values received via the prior signaling from the base station. The UE may further transmit uplink data on resources configured according to the actual footprint values.
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公开(公告)号:US20220417969A1
公开(公告)日:2022-12-29
申请号:US17598247
申请日:2020-10-23
Applicant: Apple Inc.
Inventor: Arjun Bharadwaj , Chunhai Yao , Dawei Zhang , Chunxuan Ye , Dawei Zhang , Haitong Sun , Oghenekome Oteri , Seyed Ali Akbar Fakoorian , Sigen Ye , Weidong Yang , Yushu Zhang
Abstract: A method and apparatus of a device that handles time-varying packet size in the downlink. In some embodiments, the method performed by a user equipment (UE) comprises: receiving a first signaling comprising configuration of downlink (DL) Semi-Persistent Scheduling (SPS), wherein the DL SPS configuration comprises a periodicity of the DL SPS and a first indication for a first physical layer resource, and wherein the first physical layer resource is used to dynamically modify size of a second physical layer resource for SPS DL data transmission; receiving a second signaling that activates reception based on the DL SPS, wherein the second signaling comprises information to specify a boundary of the second physical layer resource; monitoring the first physical layer resource on each SPS occasion based on the periodicity to decode a second indication; determining the size of the second physical layer resource for SPS DL data transmission, based on the second indication; and receiving data on the second physical layer resource determined for each SPS occasion based on the determined size.
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