Difference between revisions of "QUALCOMM Incorporated patent applications published on November 2nd, 2023"
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+ | '''Summary of the patent applications from QUALCOMM Incorporated on November 2nd, 2023''' | ||
+ | |||
+ | * The organization (QUALCOMM Incorporated) has filed patents related to various aspects of wireless communications, including management and configuration of radio bearers, discontinuous reception (DRX) adaptation, keep-alive signaling, error reduction in random access procedures, RACH message selection and transmission, fixed frame period (FFP) configurations, scheduling in half-duplex mode, activation of periodic resources for Hybrid Automatic Repeat Request (HARQ) codebooks, resource sensing and occupancy state determinations, and beam level adjustment for optimizing communication. | ||
+ | * Notable applications include: | ||
+ | * Management and configuration of radio bearers for user equipment (UE) in unicast and multicast cells based on measurement reports generated by the UE. | ||
+ | * Discontinuous reception (DRX) adaptation in a wireless communication system, where a network entity configures a UE with a long DRX cycle and activates additional short DRX cycles under certain conditions. | ||
+ | * Using keep-alive signaling to save energy in a network by transmitting a smaller version of a synchronization signal block (SSB) more frequently. | ||
+ | * Reducing errors in time or frequency adjustments for preambles of a random access procedure by adjusting timing or frequency based on indications received from the network. | ||
+ | * Selecting and transmitting a RACH message to a network node based on channel metrics or associated parameters of PRACH resources. | ||
+ | * Enabling or disabling a UE-initiated channel occupancy time for uplink transmission based on FFP configurations and DCI received from a base station. | ||
+ | * Scheduling a UE operating in half-duplex mode to receive a downlink communication and transmit an uplink communication during the same symbol period. | ||
+ | * Activating periodic resources in multiple communication channels (CCs) for a HARQ codebook and transmitting information related to canceled HARQ bits. | ||
+ | * Selecting a sensing state for a set of resources based on weights received from another wireless device and performing sensing and communication based on occupancy state determinations. | ||
+ | * Adjusting the beam level of a user device based on information about data amount, channel quality, and application throughput to optimize communication. | ||
+ | |||
+ | |||
+ | |||
+ | |||
==Patent applications for QUALCOMM Incorporated on November 2nd, 2023== | ==Patent applications for QUALCOMM Incorporated on November 2nd, 2023== | ||
Revision as of 14:13, 5 November 2023
Summary of the patent applications from QUALCOMM Incorporated on November 2nd, 2023
- The organization (QUALCOMM Incorporated) has filed patents related to various aspects of wireless communications, including management and configuration of radio bearers, discontinuous reception (DRX) adaptation, keep-alive signaling, error reduction in random access procedures, RACH message selection and transmission, fixed frame period (FFP) configurations, scheduling in half-duplex mode, activation of periodic resources for Hybrid Automatic Repeat Request (HARQ) codebooks, resource sensing and occupancy state determinations, and beam level adjustment for optimizing communication.
- Notable applications include:
* Management and configuration of radio bearers for user equipment (UE) in unicast and multicast cells based on measurement reports generated by the UE. * Discontinuous reception (DRX) adaptation in a wireless communication system, where a network entity configures a UE with a long DRX cycle and activates additional short DRX cycles under certain conditions. * Using keep-alive signaling to save energy in a network by transmitting a smaller version of a synchronization signal block (SSB) more frequently. * Reducing errors in time or frequency adjustments for preambles of a random access procedure by adjusting timing or frequency based on indications received from the network. * Selecting and transmitting a RACH message to a network node based on channel metrics or associated parameters of PRACH resources. * Enabling or disabling a UE-initiated channel occupancy time for uplink transmission based on FFP configurations and DCI received from a base station. * Scheduling a UE operating in half-duplex mode to receive a downlink communication and transmit an uplink communication during the same symbol period. * Activating periodic resources in multiple communication channels (CCs) for a HARQ codebook and transmitting information related to canceled HARQ bits. * Selecting a sensing state for a set of resources based on weights received from another wireless device and performing sensing and communication based on occupancy state determinations. * Adjusting the beam level of a user device based on information about data amount, channel quality, and application throughput to optimize communication.
Contents
- 1 Patent applications for QUALCOMM Incorporated on November 2nd, 2023
- 1.1 USER EQUIPMENT (UE)-BASED RADIO FREQUENCY FINGERPRINT (RFFP) POSITIONING WITH DOWNLINK POSITIONING REFERENCE SIGNALS (17661538)
- 1.2 USER EQUIPMENT (UE)-BASED RADIO FREQUENCY FINGERPRINT (RFFP) POSITIONING WITH DOWNLINK POSITIONING REFERENCE SIGNALS (17661534)
- 1.3 SIMPLIFIED CELL LOCATION INFORMATION SHARING FOR POSITIONING PURPOSES (18350218)
- 1.4 RADAR REFERENCE SIGNAL FOR JOINT COMMUNICATION RADAR (17734349)
- 1.5 POWER CONTROL FOR WIRELESS SENSING (17914243)
- 1.6 FREQUENCY MODULATED CONTINUOUS WAVE SIGNAL-BASED POSITIONING IN NEW RADIO (17660945)
- 1.7 SYSTEM AND METHOD OF ROTATING VECTOR INPUT (17661707)
- 1.8 Instruction Set Architecture for Neural Network Quantization and Packing (17732361)
- 1.9 PROVIDING ACKNOWLEDGEMENTS FOR SYSTEM POWER MANAGEMENT INTERFACE (17923110)
- 1.10 METHOD AND APPARATUS FOR AGGREGATING AND PRESENTING DATA ASSOCIATED WITH GEOGRAPHIC LOCATIONS (18331863)
- 1.11 Instruction Set Architecture for Implementing Linear Activation Functions in Neural Networks (17732372)
- 1.12 FEDERATED LEARNING OF AUTOENCODER PAIRS FOR WIRELESS COMMUNICATION (18004867)
- 1.13 PACKAGE COMPRISING A SUBSTRATE WITH A BUMP PAD INTERCONNECT COMPRISING A TRAPEZOID SHAPED CROSS SECTION (17735075)
- 1.14 DIE EDGE PROTECTION TO ELIMINATE DIE CHIPPING (17661029)
- 1.15 DETECTION OF LASER-BASED SECURITY ATTACKS (18338928)
- 1.16 ENHANCED MOSFET WITH SUPERIOR RF PERFORMANCE (17661221)
- 1.17 PRECODER PREDICTION FOR UPLINK TRANSMISSION ENHANCEMENT (17733243)
- 1.18 TECHNIQUES FOR HYBRID BEAMFORMING CODEBOOK EXPANSION BEYOND RADIO FREQUENCY INTEGRATED CIRCUIT MEMORY (17661142)
- 1.19 METHODS FOR CODEBOOK CONFIGURATION AND CAPABILITY FOR CSI WITH FDD RECIPROCITY (18043134)
- 1.20 CROSS-DISCONTINUOUS RECEPTION GROUP CHANNEL STATE INFORMATION REPORTING (18348428)
- 1.21 CHANNEL STATE INFORMATION REFERENCE SIGNAL FOR WIDEBAND OPERATION (18349357)
- 1.22 GAIN PATTERN OVERLAP REDUCTION (18348209)
- 1.23 REPORT INCLUDING A CONFIDENCE FOR A REPORT QUANTITY (18308568)
- 1.24 NON-TERRESTRIAL NETWORK DEFAULT VALUE CONFIGURATION (17661200)
- 1.25 BARRIER TYPE DETECTION USING TIME-OF-FLIGHT AND RECEIVE SIGNAL STRENGTH INDICATION (17731504)
- 1.26 PRIORITIZATION AND TIMING FOR CROSS-LINK INTERFERENCE REPORTING (17733835)
- 1.27 MACHINE LEARNING FOR BEAM PREDICTIONS WITH CONFIDENCE INDICATIONS (17661543)
- 1.28 EVENT-BASED REPORTING OF BEAM-RELATED PREDICTION (18308563)
- 1.29 GROUP COMMON DCI FOR CLI MEASUREMENT AND REPORTING (18349863)
- 1.30 QUALIFIED JAMMING SIGNAL DETECTION (17732061)
- 1.31 SIZE-BASED NEURAL NETWORK SELECTION FOR AUTOENCODER-BASED COMMUNICATION (18006853)
- 1.32 HYBRID AUTOMATIC REPEAT REQUEST CODEBOOK RETRANSMISSION (17661312)
- 1.33 TECHNIQUES FOR CODEBLOCK GROUP-BASED TRANSMISSIONS INCLUDING MULTIPLE CODEWORDS (18125647)
- 1.34 RECIPROCITY-BASED BEAMFORMING FOR ARCHITECTURE-AWARE USER EQUIPMENT (17905727)
- 1.35 PDCCH ON CRS SYMBOLS (17661265)
- 1.36 POSITIONING REFERENCE SIGNAL BANDWIDTH ADAPTATION FOR USER EQUIPMENT POWER SAVINGS (18002299)
- 1.37 METHODS FOR USING TWO-WAY BEAMFORMING OPERATIONS FOR CALIBRATION (17661517)
- 1.38 PORT GROUPING FOR A CHANNEL STATE INFORMATION-REFERENCE SIGNAL (CSI-RS) RESOURCE (17922942)
- 1.39 LOW-LAYER POSITIONING MEASUREMENT REPORTING (18006028)
- 1.40 DEMODULATION REFERENCE SIGNAL RESOURCE ALLOCATION (18183343)
- 1.41 RANK AND RESOURCE SET SIGNALING TECHNIQUES FOR MULTIPLE TRANSMISSION-RECEPTION POINT COMMUNICATIONS (18343866)
- 1.42 BANDWIDTH OPERATION FOR FULL DUPLEX USER EQUIPMENT (17786900)
- 1.43 CONTROL INFORMATION FOR SIDELINK SPATIAL DOMAIN MULTIPLEXING FROM MULTIPLE TRANSMISSION RECEPTION POINTS (TRPS) (18245988)
- 1.44 DYNAMIC INDICATIONS OF MODIFICATIONS TO A PERIODIC RESOURCE GRANT (18188259)
- 1.45 NETWORK SLICING ENHANCEMENT (17997813)
- 1.46 Method and Apparatus for Mapping DASH to WebRTC Transport (18306943)
- 1.47 LOW COMPLEXITY HISTORY USAGE FOR RICE PARAMETER DERIVATION FOR HIGH BIT-DEPTH VIDEO CODING (18344611)
- 1.48 METHODS AND SYSTEMS FOR SHIFT ESTIMATION FOR ONE OR MORE OUTPUT FRAMES (17734950)
- 1.49 SEPARATION OF SELF-VOICE SIGNAL FROM A BACKGROUND SIGNAL USING A SPEECH GENERATIVE NETWORK ON A WEARABLE DEVICE (18349920)
- 1.50 ANNOUNCEMENT OF VEHICLE-TO-EVERYTHING CAPABILITIES (17731258)
- 1.51 TECHNIQUES FOR INITIATING DATA SESSIONS IN SIDELINK COMMUNICATIONS (17733651)
- 1.52 OPTIMIZED VEHICLE-TO-EVERYTHING (V2X) MESSAGING (17731128)
- 1.53 NETWORK COORDINATION DURING PATH SWITCHING AND MULTI-PATH SCENARIOS (17731539)
- 1.54 UPLINK SMALL DATA TRANSMISSION IN INACTIVE STATE (18313236)
- 1.55 GENERALIZED DISTRIBUTED MULTI-USER (MU) TRANSMISSIONS (18350904)
- 1.56 SIDELINK SYNCHRONIZATION SIGNAL BLOCK DESIGNS FOR SHARED SPECTRUM (17730969)
- 1.57 CANDIDATE BEAM SET UPDATE BASED ON DEFINED OR CONFIGURED NEIGHBORING BEAM SET (17661252)
- 1.58 BEAM CONFIGURATION REPORTING FOR HIERARCHICAL BEAM PAIR IDENTIFICATION (17661537)
- 1.59 ADDING SURROUNDING INFORMATION IN MINIMIZATION OF DRIVE TEST REPORTING (17733826)
- 1.60 CROSS-LINK INTERFERENCE REPORTING ON PHYSICAL UPLINK CHANNELS (17732008)
- 1.61 CROSS-LINK INTERFERENCE REPORTING CONFIGURATION AND PAYLOAD DESIGN (17733833)
- 1.62 EVENT-BASED REPORTING OF BEAM-RELATED PREDICTION (18308574)
- 1.63 DYNAMIC CONFIGURATION OF MEASUREMENT GAPS (18348980)
- 1.64 L1/L2 INTER-CELL MOBILITY AND CA (17811567)
- 1.65 NEIGHBOR CELL MEASUREMENT WITH POWER SAVING (17661731)
- 1.66 TECHNIQUES FOR AVOIDING FREQUENT HANDOVER IN SMALL CELLS (17914752)
- 1.67 LAYER 1 / LAYER 2 SIGNALING FOR INTER-CELL MOBILITY WITH MULTIPLE TRANSMISSION RECEPTION POINTS (17661131)
- 1.68 ENHANCED MEASUREMENT OBJECT CONFIGURATIONS AND PROCEDURES (18307755)
- 1.69 EFFICIENT NETWORK ACQUISITION SCANS (17661138)
- 1.70 CELL SELECTION IN ENERGY SAVING MODE CELLS (18306388)
- 1.71 DISCONTINUOUS RECEPTION BY BASE STATION FOR ENERGY SAVING (18304091)
- 1.72 TECHNIQUES FOR DISCONTINUOUS RECEPTION CONFIGURATIONS FOR NETWORK ENERGY SAVINGS (17731137)
- 1.73 MODE MANAGEMENT FOR NETWORK ENTITY ENERGY SAVINGS (17661233)
- 1.74 WIRELESS DEVICE FEEDBACK OF DESIRED DOWNLINK POWER ADJUSTMENT (17661024)
- 1.75 POWER BOOSTING FOR UPLINK SHARED CHANNEL REPETITIONS (18000233)
- 1.76 PHYSICAL BROADCAST CHANNEL AND SYNCHRONIZATION SIGNAL BLOCK SIGNALING (17661248)
- 1.77 NETWORK ENERGY SAVING WITH DISCOVERY SIGNALS (17733291)
- 1.78 TECHNIQUES FOR CONFIGURING BANDWIDTH PARTS AND SYNCHRONIZATION SIGNAL BLOCKS (17733963)
- 1.79 TIMING CONTROL OF REPEATERS (18308499)
- 1.80 SIMULTANEOUS PROCESSING OF MULTIPLE POSITIONING FREQUENCY LAYERS IN NR BY A UE (18005327)
- 1.81 JOINT SIDELINK AND UPLINK/DOWNLINK POSITIONING (18006527)
- 1.82 MACHINE LEARNING MODEL POSITIONING PERFORMANCE MONITORING AND REPORTING (18188638)
- 1.83 NETWORK-ASSISTED AND ROUND-TRIP RADIO FREQUENCY FINGERPRINT-BASED (RFFP) POSITION ESTIMATION (18192937)
- 1.84 MEASUREMENT ERROR FEEDBACK TO ENABLE MACHINE LEARNING-BASED POSITIONING (17661399)
- 1.85 BARRIER TYPE DETECTION USING TIME-OF-FLIGHT AND RECEIVE SIGNAL STRENGTH INDICATION (17731850)
- 1.86 SOUNDING REFERENCE SIGNAL RESOURCE CONFIGURATION (17661519)
- 1.87 PHYSICAL SIDELINK FEEDBACK CHANNEL RESOURCE SELECTION (17661145)
- 1.88 SYSTEMS AND METHODS TO INCLUDE DEMODULATION REFERENCE SIGNAL BUNDLING IN MULTI-SUBSCRIBER IDENTITY MODULE DEVICES (17661173)
- 1.89 CARRIER AGGREGATION WITH UPLINK CARRIER SELECTION (18011007)
- 1.90 SEMI-PERSISTENT SCHEDULING ACTIVATION AND DEACTIVATION (18188794)
- 1.91 SCHEDULING REQUEST CONFIGURATION (17661441)
- 1.92 TRAFFIC INDICATION IN MULTI-LINK OPERATION (17661218)
- 1.93 UE BEHAVIOR WITH REFERENCE SIGNALS IN A FULL-DUPLEX SYMBOL (17921313)
- 1.94 STATE CHANGES ASSOCIATED WITH A CONFIGURED GRANT TRANSMISSION OF A PLURALITY OF TRANSPORT BLOCKS (18163661)
- 1.95 INTERLACED PHYSICAL SIDELINK FEEDBACK CHANNEL (PSFCH) MAPPING (18163959)
- 1.96 SIDELINK CONTROL CHANNEL SUCCESSIVE PARAMETER ESTIMATION (18348254)
- 1.97 DYNAMIC PATH SWITCH VIA ASSISTING NODE (17661690)
- 1.98 UPLINK CONTROL CHANNEL RESOURCE SELECTION FOR SCHEDULING REQUEST TRANSMISSION (17731406)
- 1.99 SOUNDING REFERENCE SIGNAL RESOURCE CONFIGURATION FOR TRANSMISSION ANTENNA PORTS (17733747)
- 1.100 DITHERING JITTERED PERIODIC TRAFFIC FOR SINGLE UPLINK CONFIGURED GRANT (17917018)
- 1.101 AVAILABLE SLOTS FOR UPLINK REPETITION (18066109)
- 1.102 MULTIPLE CHANNELS WITHIN CONFIGURED GRANT OCCASIONS (18184310)
- 1.103 UPLINK CONTROL INFORMATION MAPPING FOR UPLINK TRANSMISSION SWITCHING (18245710)
- 1.104 PRIORITIZATION FOR SIMULTANEOUS UPLINK TRANSMISSIONS (18307480)
- 1.105 TRANSPORT BLOCK AND HYBRID AUTOMATIC REPEAT REQUEST ACKNOWLEDGMENT DESIGN FOR FULL DUPLEX USER EQUIPMENT (17778782)
- 1.106 CODE BLOCK GROUP-BASED RETRANSMISSION AND FEEDBACK FOR SEMI-PERSISTENT SCHEDULING COMMUNICATIONS (17733789)
- 1.107 MULTI-TRANSPORT BLOCK UPLINK SHARED CHANNEL TRANSMISSION FEEDBACK MECHANISMS (17732341)
- 1.108 RESOURCE BLOCK SET ALLOCATION FOR SUBBAND FULL DUPLEX OPERATION (17997918)
- 1.109 INTER-OPERATOR MULTICAST AND UNICAST CONVERGENCE TRANSMISSION (17997895)
- 1.110 FREQUENCY RESOURCE ALLOCATION FOR REDUCED CAPABILITY DEVICES (17732269)
- 1.111 DOWNLINK BEAM LEVEL MANAGEMENT (17661521)
- 1.112 WEIGHTED DECISION PROCESS-BASED RESOURCE SENSING (17734353)
- 1.113 CG HARQ-ACK ENHANCEMENTS (17661269)
- 1.114 PRIORITIZATION RULES FOR UPLINK AND DOWNLINK CHANNELS IN FULL-DUPLEX SYSTEMS (17730970)
- 1.115 DYNAMIC INDICATION OF USER EQUIPMENT INITIATED CHANNEL OCCUPANCY TIME (18245704)
- 1.116 RACH RESOURCE SELECTION (17661108)
- 1.117 CLOSED LOOP TIME AND FREQUENCY CORRECTIONS IN NON-TERRESTRIAL NETWORKS (17733636)
- 1.118 KEEP-ALIVE SIGNAL FOR NETWORK ENERGY SAVING IN A WIRELESS NETWORK (18308552)
- 1.119 DRX ADAPTATION FOR POWER SAVING AND LATENCY REDUCTION (17733986)
- 1.120 TECHNIQUES FOR MULTICAST AND UNICAST CONVERGENCE IN WIRELESS COMMUNICATIONS (17796504)
Patent applications for QUALCOMM Incorporated on November 2nd, 2023
USER EQUIPMENT (UE)-BASED RADIO FREQUENCY FINGERPRINT (RFFP) POSITIONING WITH DOWNLINK POSITIONING REFERENCE SIGNALS (17661538)
Main Inventor
Mohammed Ali Mohammed HIRZALLAH
USER EQUIPMENT (UE)-BASED RADIO FREQUENCY FINGERPRINT (RFFP) POSITIONING WITH DOWNLINK POSITIONING REFERENCE SIGNALS (17661534)
Main Inventor
Mohammed Ali Mohammed HIRZALLAH
SIMPLIFIED CELL LOCATION INFORMATION SHARING FOR POSITIONING PURPOSES (18350218)
Main Inventor
Alexandros MANOLAKOS
RADAR REFERENCE SIGNAL FOR JOINT COMMUNICATION RADAR (17734349)
Main Inventor
Preeti Kumari
POWER CONTROL FOR WIRELESS SENSING (17914243)
Main Inventor
Jing DAI
FREQUENCY MODULATED CONTINUOUS WAVE SIGNAL-BASED POSITIONING IN NEW RADIO (17660945)
Main Inventor
Srinivas YERRAMALLI
SYSTEM AND METHOD OF ROTATING VECTOR INPUT (17661707)
Main Inventor
Sundar Rajan BALASUBRAMANIAN
Instruction Set Architecture for Neural Network Quantization and Packing (17732361)
Main Inventor
Srijesh SUDARSANAN
PROVIDING ACKNOWLEDGEMENTS FOR SYSTEM POWER MANAGEMENT INTERFACE (17923110)
Main Inventor
Sharon GRAIF
METHOD AND APPARATUS FOR AGGREGATING AND PRESENTING DATA ASSOCIATED WITH GEOGRAPHIC LOCATIONS (18331863)
Main Inventor
Mark BOYNS
Instruction Set Architecture for Implementing Linear Activation Functions in Neural Networks (17732372)
Main Inventor
Srijesh SUDARSANAN
FEDERATED LEARNING OF AUTOENCODER PAIRS FOR WIRELESS COMMUNICATION (18004867)
Main Inventor
June NAMGOONG
PACKAGE COMPRISING A SUBSTRATE WITH A BUMP PAD INTERCONNECT COMPRISING A TRAPEZOID SHAPED CROSS SECTION (17735075)
Main Inventor
Chin-Kwan KIM
DIE EDGE PROTECTION TO ELIMINATE DIE CHIPPING (17661029)
Main Inventor
Sameer Sunil VADHAVKAR
DETECTION OF LASER-BASED SECURITY ATTACKS (18338928)
Main Inventor
Alan LEWIS
ENHANCED MOSFET WITH SUPERIOR RF PERFORMANCE (17661221)
Main Inventor
Abhijeet PAUL
PRECODER PREDICTION FOR UPLINK TRANSMISSION ENHANCEMENT (17733243)
Main Inventor
Kiran Venugopal
TECHNIQUES FOR HYBRID BEAMFORMING CODEBOOK EXPANSION BEYOND RADIO FREQUENCY INTEGRATED CIRCUIT MEMORY (17661142)
Main Inventor
Daoud Abdelhafiz BURGHAL
METHODS FOR CODEBOOK CONFIGURATION AND CAPABILITY FOR CSI WITH FDD RECIPROCITY (18043134)
Main Inventor
Chenxi HAO
CROSS-DISCONTINUOUS RECEPTION GROUP CHANNEL STATE INFORMATION REPORTING (18348428)
Main Inventor
Wooseok NAM
CHANNEL STATE INFORMATION REFERENCE SIGNAL FOR WIDEBAND OPERATION (18349357)
Main Inventor
Jing SUN
GAIN PATTERN OVERLAP REDUCTION (18348209)
Main Inventor
Lizhi ZHENG
REPORT INCLUDING A CONFIDENCE FOR A REPORT QUANTITY (18308568)
Main Inventor
Tianyang Bai
NON-TERRESTRIAL NETWORK DEFAULT VALUE CONFIGURATION (17661200)
Main Inventor
Toru UCHINO
BARRIER TYPE DETECTION USING TIME-OF-FLIGHT AND RECEIVE SIGNAL STRENGTH INDICATION (17731504)
Main Inventor
Xiaoxin ZHANG
PRIORITIZATION AND TIMING FOR CROSS-LINK INTERFERENCE REPORTING (17733835)
Main Inventor
Abdelrahman Mohamed Ahmed Mohamed Ibrahim
MACHINE LEARNING FOR BEAM PREDICTIONS WITH CONFIDENCE INDICATIONS (17661543)
Main Inventor
Tianyang BAI
EVENT-BASED REPORTING OF BEAM-RELATED PREDICTION (18308563)
Main Inventor
Tianyang Bai
GROUP COMMON DCI FOR CLI MEASUREMENT AND REPORTING (18349863)
Main Inventor
Abdelrahman Mohamed Ahmed Mohamed IBRAHIM
QUALIFIED JAMMING SIGNAL DETECTION (17732061)
Main Inventor
Jordan COOKMAN
SIZE-BASED NEURAL NETWORK SELECTION FOR AUTOENCODER-BASED COMMUNICATION (18006853)
Main Inventor
Qiaoyu LI
HYBRID AUTOMATIC REPEAT REQUEST CODEBOOK RETRANSMISSION (17661312)
Main Inventor
Wei YANG
TECHNIQUES FOR CODEBLOCK GROUP-BASED TRANSMISSIONS INCLUDING MULTIPLE CODEWORDS (18125647)
Main Inventor
Yi Huang
RECIPROCITY-BASED BEAMFORMING FOR ARCHITECTURE-AWARE USER EQUIPMENT (17905727)
Main Inventor
Muhammad Sayed Khairy ABDELGHAFFAR
PDCCH ON CRS SYMBOLS (17661265)
Main Inventor
Kazuki TAKEDA
POSITIONING REFERENCE SIGNAL BANDWIDTH ADAPTATION FOR USER EQUIPMENT POWER SAVINGS (18002299)
Main Inventor
Weimin DUAN
METHODS FOR USING TWO-WAY BEAMFORMING OPERATIONS FOR CALIBRATION (17661517)
Main Inventor
Vasanthan RAGHAVAN
PORT GROUPING FOR A CHANNEL STATE INFORMATION-REFERENCE SIGNAL (CSI-RS) RESOURCE (17922942)
Main Inventor
Mostafa KHOSHNEVISAN
LOW-LAYER POSITIONING MEASUREMENT REPORTING (18006028)
Main Inventor
Srinivas YERRAMALLI
DEMODULATION REFERENCE SIGNAL RESOURCE ALLOCATION (18183343)
Main Inventor
Muhammad Sayed Khairy ABDELGHAFFAR
RANK AND RESOURCE SET SIGNALING TECHNIQUES FOR MULTIPLE TRANSMISSION-RECEPTION POINT COMMUNICATIONS (18343866)
Main Inventor
Mostafa KHOSHNEVISAN
BANDWIDTH OPERATION FOR FULL DUPLEX USER EQUIPMENT (17786900)
Main Inventor
Muhammad Sayed Khairy ABDELGHAFFAR
CONTROL INFORMATION FOR SIDELINK SPATIAL DOMAIN MULTIPLEXING FROM MULTIPLE TRANSMISSION RECEPTION POINTS (TRPS) (18245988)
Main Inventor
Sourjya DUTTA
DYNAMIC INDICATIONS OF MODIFICATIONS TO A PERIODIC RESOURCE GRANT (18188259)
Main Inventor
Iyab Issam SAKHNINI
NETWORK SLICING ENHANCEMENT (17997813)
Main Inventor
Zhiguo LI
Method and Apparatus for Mapping DASH to WebRTC Transport (18306943)
Main Inventor
Imed BOUAZIZI
LOW COMPLEXITY HISTORY USAGE FOR RICE PARAMETER DERIVATION FOR HIGH BIT-DEPTH VIDEO CODING (18344611)
Main Inventor
Dmytro Rusanovskyy
METHODS AND SYSTEMS FOR SHIFT ESTIMATION FOR ONE OR MORE OUTPUT FRAMES (17734950)
Main Inventor
Narayana Karthik RAVIRALA
SEPARATION OF SELF-VOICE SIGNAL FROM A BACKGROUND SIGNAL USING A SPEECH GENERATIVE NETWORK ON A WEARABLE DEVICE (18349920)
Main Inventor
Lae-Hoon KIM
ANNOUNCEMENT OF VEHICLE-TO-EVERYTHING CAPABILITIES (17731258)
Main Inventor
Seung Ryul YANG
TECHNIQUES FOR INITIATING DATA SESSIONS IN SIDELINK COMMUNICATIONS (17733651)
Main Inventor
Aasif S.A. DINGANKAR
OPTIMIZED VEHICLE-TO-EVERYTHING (V2X) MESSAGING (17731128)
Main Inventor
Mohammed Ataur Rahman SHUMAN
NETWORK COORDINATION DURING PATH SWITCHING AND MULTI-PATH SCENARIOS (17731539)
Main Inventor
Shankar Krishnan
UPLINK SMALL DATA TRANSMISSION IN INACTIVE STATE (18313236)
Main Inventor
Huichun LIU
GENERALIZED DISTRIBUTED MULTI-USER (MU) TRANSMISSIONS (18350904)
Main Inventor
Sameer VERMANI
SIDELINK SYNCHRONIZATION SIGNAL BLOCK DESIGNS FOR SHARED SPECTRUM (17730969)
Main Inventor
Chih-Hao Liu
CANDIDATE BEAM SET UPDATE BASED ON DEFINED OR CONFIGURED NEIGHBORING BEAM SET (17661252)
Main Inventor
Tianyang BAI
BEAM CONFIGURATION REPORTING FOR HIERARCHICAL BEAM PAIR IDENTIFICATION (17661537)
Main Inventor
Yan ZHOU
ADDING SURROUNDING INFORMATION IN MINIMIZATION OF DRIVE TEST REPORTING (17733826)
Main Inventor
Bapineedu Chowdary Gummadi
CROSS-LINK INTERFERENCE REPORTING ON PHYSICAL UPLINK CHANNELS (17732008)
Main Inventor
Abdelrahman Mohamed Ahmed Mohamed Ibrahim
CROSS-LINK INTERFERENCE REPORTING CONFIGURATION AND PAYLOAD DESIGN (17733833)
Main Inventor
Abdelrahman Mohamed Ahmed Mohamed Ibrahim
EVENT-BASED REPORTING OF BEAM-RELATED PREDICTION (18308574)
Main Inventor
Tianyang Bai
DYNAMIC CONFIGURATION OF MEASUREMENT GAPS (18348980)
Main Inventor
Alexandros MANOLAKOS
L1/L2 INTER-CELL MOBILITY AND CA (17811567)
Main Inventor
Jelena DAMNJANOVIC
NEIGHBOR CELL MEASUREMENT WITH POWER SAVING (17661731)
Main Inventor
Ming YANG
TECHNIQUES FOR AVOIDING FREQUENT HANDOVER IN SMALL CELLS (17914752)
Main Inventor
Hao Zhang
LAYER 1 / LAYER 2 SIGNALING FOR INTER-CELL MOBILITY WITH MULTIPLE TRANSMISSION RECEPTION POINTS (17661131)
Main Inventor
Jelena DAMNJANOVIC
ENHANCED MEASUREMENT OBJECT CONFIGURATIONS AND PROCEDURES (18307755)
Main Inventor
Linhai HE
EFFICIENT NETWORK ACQUISITION SCANS (17661138)
Main Inventor
Xinning SHEN
CELL SELECTION IN ENERGY SAVING MODE CELLS (18306388)
Main Inventor
Navid ABEDINI
DISCONTINUOUS RECEPTION BY BASE STATION FOR ENERGY SAVING (18304091)
Main Inventor
Naeem AKL
TECHNIQUES FOR DISCONTINUOUS RECEPTION CONFIGURATIONS FOR NETWORK ENERGY SAVINGS (17731137)
Main Inventor
Navid Abedini
MODE MANAGEMENT FOR NETWORK ENTITY ENERGY SAVINGS (17661233)
Main Inventor
Navid ABEDINI
WIRELESS DEVICE FEEDBACK OF DESIRED DOWNLINK POWER ADJUSTMENT (17661024)
Main Inventor
Yan ZHOU
POWER BOOSTING FOR UPLINK SHARED CHANNEL REPETITIONS (18000233)
Main Inventor
Mostafa KHOSHNEVISAN
PHYSICAL BROADCAST CHANNEL AND SYNCHRONIZATION SIGNAL BLOCK SIGNALING (17661248)
Main Inventor
Muhammad Nazmul ISLAM
NETWORK ENERGY SAVING WITH DISCOVERY SIGNALS (17733291)
Main Inventor
Navid ABEDINI
TECHNIQUES FOR CONFIGURING BANDWIDTH PARTS AND SYNCHRONIZATION SIGNAL BLOCKS (17733963)
Main Inventor
Yongjun Kwak
TIMING CONTROL OF REPEATERS (18308499)
Main Inventor
Navid ABEDINI
SIMULTANEOUS PROCESSING OF MULTIPLE POSITIONING FREQUENCY LAYERS IN NR BY A UE (18005327)
Main Inventor
Alexandros MANOLAKOS
JOINT SIDELINK AND UPLINK/DOWNLINK POSITIONING (18006527)
Main Inventor
Yiqing CAO
MACHINE LEARNING MODEL POSITIONING PERFORMANCE MONITORING AND REPORTING (18188638)
Main Inventor
Mohammed Ali Mohammed HIRZALLAH
NETWORK-ASSISTED AND ROUND-TRIP RADIO FREQUENCY FINGERPRINT-BASED (RFFP) POSITION ESTIMATION (18192937)
Main Inventor
Mohammed Ali Mohammed HIRZALLAH
MEASUREMENT ERROR FEEDBACK TO ENABLE MACHINE LEARNING-BASED POSITIONING (17661399)
Main Inventor
Jay Kumar SUNDARARAJAN
BARRIER TYPE DETECTION USING TIME-OF-FLIGHT AND RECEIVE SIGNAL STRENGTH INDICATION (17731850)
Main Inventor
Xiaoxin ZHANG
SOUNDING REFERENCE SIGNAL RESOURCE CONFIGURATION (17661519)
Main Inventor
Yi HUANG
PHYSICAL SIDELINK FEEDBACK CHANNEL RESOURCE SELECTION (17661145)
Main Inventor
Ahmed ELSHAFIE
SYSTEMS AND METHODS TO INCLUDE DEMODULATION REFERENCE SIGNAL BUNDLING IN MULTI-SUBSCRIBER IDENTITY MODULE DEVICES (17661173)
Main Inventor
Akash KUMAR
CARRIER AGGREGATION WITH UPLINK CARRIER SELECTION (18011007)
Main Inventor
Wentao ZHANG
SEMI-PERSISTENT SCHEDULING ACTIVATION AND DEACTIVATION (18188794)
Main Inventor
Olufunmilola Omolade AWONIYI-OTERI
SCHEDULING REQUEST CONFIGURATION (17661441)
Main Inventor
Diana MAAMARI
TRAFFIC INDICATION IN MULTI-LINK OPERATION (17661218)
Main Inventor
Gyanranjan HAZARIKA
UE BEHAVIOR WITH REFERENCE SIGNALS IN A FULL-DUPLEX SYMBOL (17921313)
Main Inventor
Ahmed Attia ABOTABL
Brief explanation
The abstract describes a system where user equipment (UE) can transmit or receive reference signals in flexible symbols that are used for full duplex communications. The UE can use frequency resources of a symbol indicated as flexible, which can be configured for either uplink or downlink communications. The UE determines whether and how to transmit reference signals in a flexible symbol based on factors such as the bandwidth of the uplink and downlink resources, the frequency positions of the reference signals, and other criteria. Similarly, a base station can also transmit or receive reference signals in flexible symbols for full duplex communications.
Abstract
A user equipment (UE) may be configured to transmit or receive reference signals in flexible symbols that are indicated as used for full duplex communications. The UE may transmit or receive reference signals over frequency resources of a symbol indicated as a flexible symbol, which may configured for uplink or downlink communications, that is also configured as full duplex, which may include frequency resources for both uplink and downlink communications. The UE may determine whether or how to transmit one or more reference signals in a flexible symbol based on at least one of the bandwidth of the uplink resources or the bandwidth of the downlink resources, the frequency positions of the reference signals, or other criteria. A base station may be configured to similarly transmit or receive reference signals in flexible symbols that are indicated as used for full duplex communications.
STATE CHANGES ASSOCIATED WITH A CONFIGURED GRANT TRANSMISSION OF A PLURALITY OF TRANSPORT BLOCKS (18163661)
Main Inventor
Wei YANG
Brief explanation
The abstract describes a wireless communication system where a user device (UE) receives a configuration for a transmission called a configured grant (CG). The CG includes multiple transport blocks (TBs). The UE also receives a downlink control information (DCI) transmission that includes information about changes in the state of the CG transmission. The abstract mentions that there are other aspects of the disclosure that are not described in detail.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a configuration corresponding to a configured grant (CG), wherein the CG is associated with a CG transmission comprising a plurality of transport blocks (TBs). The UE may receive a downlink control information (DCI) transmission comprising at least one state change indication corresponding to at least one state change associated with the CG transmission. Numerous other aspects are described.
INTERLACED PHYSICAL SIDELINK FEEDBACK CHANNEL (PSFCH) MAPPING (18163959)
Main Inventor
Chih-Hao LIU
Brief explanation
This abstract describes a method of wireless communication using a shared frequency band. The method involves a first wireless communication device receiving two sidelink (SL) communications in different time slots and transmitting feedback communications for each of these SL communications. The transmission of the feedback communications is based on a mapping of the SL communications to specific resource blocks within the shared frequency band.
Abstract
A method of wireless communication performed by a first wireless communication device includes: receiving, in first sidelink (SL) resources of a shared frequency band comprising a first interlace of resource blocks (RBs) within one or more first RB-sets, a first SL communication in a first slot and a second SL communication in a second slot; and transmitting, in second SL resources of the shared frequency band comprising the one or more first RB-sets and a second interlace of RBs, a first SL feedback communication for the first SL communication and a second SL feedback communication for the second SL communication, wherein the transmitting the first SL feedback communication and the second SL feedback communication is based on a mapping of the first SL communication and the second SL communication to the second interlace of RBs in the one or more first RB-sets.
SIDELINK CONTROL CHANNEL SUCCESSIVE PARAMETER ESTIMATION (18348254)
Main Inventor
Amit BAR-OR TILLINGER
Brief explanation
The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive multiple sidelink control channel signals and sidelink shared channel signals within a subframe. The UE can use the sidelink control channel signals as pilot signals to decode the sidelink shared channel signals. This allows for efficient decoding of the shared channel signals based on the control channel signals.
Abstract
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive, within a subframe, a plurality of sidelink control channel signals providing scheduling information for a plurality of sidelink shared channel signals that are also received within the subframe. The UE may determine to use one or more of the plurality of sidelink control channel signals as pilot signals for decoding the plurality of sidelink shared channel signals. The UE may decode the plurality of sidelink shared channel signals based at least in part on the plurality of sidelink control channel signals as pilot signals.
DYNAMIC PATH SWITCH VIA ASSISTING NODE (17661690)
Main Inventor
Navid ABEDINI
Brief explanation
The abstract describes a wireless communication system where a user equipment (UE) can inform a network entity about the minimum time offset required for communication with the network entity through an assisting node. The UE then receives an offset value from the network entity based on the required minimum value. The UE can then communicate with the network entity using this offset value. The abstract mentions that there are other aspects of the system that are described in detail.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit, to a network entity, an indication of a required minimum value for a time offset associated with a communication with the network entity, wherein the required minimum value for the time offset is associated with communicating with the network entity via an assisting node. The UE may receive, from the network entity, an indication of an offset value for the time offset based at least in part on the required minimum value for the time offset. The UE may communicate with the network entity via the assisting node in accordance with the offset value. Numerous other aspects are described.
UPLINK CONTROL CHANNEL RESOURCE SELECTION FOR SCHEDULING REQUEST TRANSMISSION (17731406)
Main Inventor
Krishna Chaitanya Mukkera
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains that some wireless communication systems allow a user equipment (UE) to choose a scheduling request resource from multiple resources allocated across different cells. The UE receives control signaling indicating a first scheduling request resource on a first cell and a second scheduling request resource on a second cell. The UE generates a scheduling request that can be used with both resources. It then selects the first scheduling request resource for transmission on the first cell based on factors such as the power mode of the UE, signal quality of the first cell, or the numerology of the first cell. Finally, the UE transmits the scheduling request using the selected resource on the first cell.
Abstract
Methods, systems, and devices for wireless communications are described. Some wireless communications systems may support techniques for a user equipment (UE) to select a scheduling request resource from multiple scheduling request resources allocated across different cells based on one or more conditions. The UE may receive control signaling that indicates a first scheduling request resource on a first cell and a second scheduling request resource on a second cell. The UE may generate a scheduling request applicable to the first and second scheduling request resources. The UE may select the first scheduling request resource for transmission of the scheduling request on the first cell based on one or more of a power mode of the UE, a signal metric associated with the first cell, or a numerology of the first cell. The UE may transmit the scheduling request via the first resource on the first cell based on the selecting.
SOUNDING REFERENCE SIGNAL RESOURCE CONFIGURATION FOR TRANSMISSION ANTENNA PORTS (17733747)
Main Inventor
Yi Huang
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive instructions from a network entity regarding a set of resources for transmitting sounding reference signals. These signals are used for channel estimation. The UE can then transmit sounding reference signals using the specified resources. Additionally, the UE can receive a control message indicating a transmission on a shared channel, and subsequently transmit the specified shared channel transmission.
Abstract
Methods, systems, and devices for wireless communications are described. A user equipment may receive signaling from a network entity configuring a sounding reference signal resource set comprising a first sounding reference signal resource associated with a first subset of a total number of sounding reference signal ports and a second sounding reference signal resource associated with a second subset of the total number of sounding reference signal ports supported by the UE. The UE may transmit sounding reference signals via at least one sounding reference signal resource of the plurality of sounding reference signal resources based on the signaling configuring a sounding reference signal resource set. The UE may receive a downlink control information message comprising an indication of a physical uplink shared channel transmission based on at least a subset of the total number of sounding reference signal ports. The UE may transmit the physical uplink shared channel transmission.
DITHERING JITTERED PERIODIC TRAFFIC FOR SINGLE UPLINK CONFIGURED GRANT (17917018)
Main Inventor
Yisheng XUE
Brief explanation
This abstract describes a method for wireless communication systems to efficiently use the available bandwidth by combining the transmission of a sidelink-synchronization signal block (S-SSB) with a physical sidelink control channel (PSCCH)/physical sidelink shared channel (PSSCH) transmission. A user equipment (UE) determines how to multiplex these transmissions in a sidelink bandwidth part (BWP). During a sidelink slot, the UE communicates both the S-SSB transmission and the sidelink transmission in the sidelink BWP, based on the determined multiplex configuration.
Abstract
Wireless communications systems and methods related to multiplexing a sidelink-synchronization signal block (S-SSB) transmission with a physical sidelink control channel (PSCCH)/physical sidelink shared channel (PSSCH) transmission for occupancy channel bandwidth (OCB) fulfilment are provided. A user equipment (UE) determines a multiplex configuration for multiplexing a sidelink transmission with a S-SSB transmission in a sidelink bandwidth part (BWP). The UE communicates, in the sidelink BWP during a sidelink slot, the S-SSB transmission. The UE communicates, in the sidelink BWP during the sidelink slot, the sidelink transmission, where the S-SSB transmission and the sidelink transmission are communicated by multiplexing the sidelink transmission and the S-SSB transmission based on the multiplex configuration.
AVAILABLE SLOTS FOR UPLINK REPETITION (18066109)
Main Inventor
Liangping MA
Brief explanation
The abstract describes a wireless communication system where a user equipment (UE) determines a set of available slots for transmitting data based on a measurement gap configuration. The UE then uses these slots to transmit uplink repetitions according to a specific configuration. The abstract mentions that there are numerous other aspects described in the disclosure, but does not provide any further details.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may determine, based at least in part on a measurement gap configuration, a set of available slots for an uplink repetition configuration. The UE may transmit, using at least one slot of the set of available slots, at least one uplink repetition associated with the uplink repetition configuration. Numerous other aspects are described.
MULTIPLE CHANNELS WITHIN CONFIGURED GRANT OCCASIONS (18184310)
Main Inventor
Iyab Issam SAKHNINI
Brief explanation
The abstract describes a wireless communication system where a user device (UE) can receive a configuration that specifies multiple channels for transmitting data. The UE can then send multiple packets across these channels during a specific time period. The abstract mentions that there are other aspects of the system that are described in the document.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a configuration associated with a configured grant (CG) that indicates a plurality of physical uplink shared channels (PUSCHs) within each CG occasion for the UE. Accordingly, the UE may transmit a plurality of packets across the plurality of PUSCHs within at least one CG occasion for the UE. Numerous other aspects are described.
UPLINK CONTROL INFORMATION MAPPING FOR UPLINK TRANSMISSION SWITCHING (18245710)
Main Inventor
Yiqing CAO
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can perform dual uplink transmissions on two different operating bands of a carrier aggregation configuration. The UE can communicate on a primary cell and a secondary cell, each associated with different component carriers. The UE generates uplink control information (UCI) for the secondary cell, which is normally mapped to an uplink shared transmission of the primary cell. However, if the UE identifies that uplink transmission switching is going to occur before transmitting the UCI, it will modify the cell mapping for the UCI transmission based on this identified switching.
Abstract
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may be configured to perform dual uplink transmissions on two different operating bands of a carrier aggregation configuration. The UE may communicate on a primary cell associated with a primary component carrier and a secondary cell associated with a secondary component carrier. The UE may generate uplink control information (UCI) for the secondary cell, which is mapped to an uplink shared transmission of the primary cell. In some cases, however, the UE may identify that uplink transmission switching is to occur prior to the transmission of the UCI, such that UE may not map the UCI to the uplink shared transmission of the primary cell. Accordingly, the UE may modify a cell mapping for the transmission of the UCI based on the identified uplink transmission switching.
PRIORITIZATION FOR SIMULTANEOUS UPLINK TRANSMISSIONS (18307480)
Main Inventor
Mostafa KHOSHNEVISAN
Brief explanation
The abstract describes methods, systems, and devices for wireless communication. It explains that a user equipment (UE) can receive signaling that schedules a set of uplink transmissions. These transmissions partially overlap in time and include both dynamic grant-based and configured grant-based uplink transmissions. Each uplink transmission is associated with a transmission group for simultaneous serving cell transmissions. The UE also receives a control message indicating a prioritization configuration for the set of uplink transmissions. Based on this information, the UE cancels at least the overlapping portion of one uplink transmission in the set. This cancellation is done considering the time overlap, the corresponding transmission group, and the prioritization configuration.
Abstract
Methods, systems, and devices for wireless communication are described. A user equipment (UE) may receive signaling that schedules a set of uplink transmissions that at least partially overlap in a time domain, the set of uplink transmissions including at least one dynamic grant based uplink transmission and at least one configured grant based uplink transmission, each uplink transmission is associated with a corresponding transmission group of a set of available transmission groups for simultaneous serving cell transmissions. The UE may receive a control message indicating a prioritization configuration for the set of uplink transmissions that at least partially overlap in the time domain. The UE may cancel at least an overlapping portion of one uplink transmission in the set of uplink transmissions based at least in part on the at least partial overlap in the time domain, the corresponding transmission group, and the prioritization configuration.
TRANSPORT BLOCK AND HYBRID AUTOMATIC REPEAT REQUEST ACKNOWLEDGMENT DESIGN FOR FULL DUPLEX USER EQUIPMENT (17778782)
Main Inventor
Muhammad Sayed Khairy ABDELGHAFFAR
Brief explanation
This abstract describes techniques and apparatus for determining the configuration of a transport block (TB) and the acknowledgment (ACK)/negative acknowledgment (NACK) configuration for full duplex (FD) user equipment (UE). One technique involves receiving channel state information (CSI) reports from the FD UE and using this information to determine the TB configuration or feedback type for a communication slot, which can include both half duplex (HD) symbols and FD symbols. The determined configuration or type is then signaled to the UE. Another technique involves receiving downlink data transmissions from a base station (BS) across slots and determining the duplexing mode associated with each slot. The downlink data transmissions are then acknowledged based on the determined duplexing mode.
Abstract
Techniques and apparatus for determining a transport block (TB) configuration and hybrid automatic repeat request (HARQ) acknowledgment (ACK)/negative acknowledgment (NACK) configuration for full duplex (FD) UE(s) are described. One technique involves receiving channel state information (CSI) report(s) from a UE operating in FD mode. At least one of a TB configuration or feedback type for a communication slot is determined based on the CSI report(s). The communication slot can include half duplex (HD) symbol(s) and FD symbol(s). An indication of at least one of the TB configuration or the feedback type is signaled to the UE. Another technique involves receiving, from a base station (BS), downlink data transmission(s) across a slot(s). A type of duplexing mode associated with each of the slot(s) is determined. The downlink data transmission(s) are acknowledged, based at least in part on the type of duplexing mode associated with each of the slot(s).
CODE BLOCK GROUP-BASED RETRANSMISSION AND FEEDBACK FOR SEMI-PERSISTENT SCHEDULING COMMUNICATIONS (17733789)
Main Inventor
Wei Yang
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains that a first device can obtain information about how to provide feedback for scheduled communications. The first device then monitors for these scheduled communications and generates feedback bits based on the monitoring. It communicates these feedback bits to a second device using a specific configuration. Overall, this abstract describes a process for providing feedback in wireless communications.
Abstract
Methods, systems, and devices for wireless communications are described. A first device may obtain information indicative of a configuration to provide code block group (CBG)-based feedback for one or more semi-persistent scheduling (SPS) communications scheduled for the first device. The first device may then monitor for the one or more SPS communications in one or more CBGs of a TB in accordance with one or more SPS communication configurations. Based on the monitoring of the semi-persistent scheduling communications, the first device may generate one or more feedback bits associated with the one or more SPS communications, and may communicate, with a second device, the one or more feedback bits associated with the one or more SPS communications in accordance with the configuration to provide CBG-based feedback.
MULTI-TRANSPORT BLOCK UPLINK SHARED CHANNEL TRANSMISSION FEEDBACK MECHANISMS (17732341)
Main Inventor
Mostafa Khoshnevisan
Brief explanation
The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) and a network entity can support a feedback mechanism for uplink data transmissions that use multiple transport blocks (TBs). The UE can transmit a data message with multiple TBs and a feedback process identifier (ID) associated with them. If the data message is a configured grant (CG) physical uplink shared channel (PUSCH) transmission, the UE can include uplink control information (UCI) with the data message to indicate feedback-related information for each TB. The network entity can attempt to decode the data message and generate downlink feedback information (DFI) based on the successful decoding of the TBs.
Abstract
Methods, systems, and devices for wireless communications are described. In some aspects, a user equipment (UE) and a network entity may support feedback-related signaling designs that support a feedback mechanism for uplink data transmissions that use or include multiple transport blocks (TBs). The UE may transmit a data message including multiple TBs and a feedback process identifier (ID) corresponding to the data message may be associated with the multiple TBs. If the data message is a configured grant (CG) physical uplink shared channel (PUSCH) transmission, the UE may multiplex uplink control information (UCI) with the data message that indicates feedback-related information for each of the multiple TBs. The network entity may attempt to decode the data message including the multiple TBs and may generate downlink feedback information (DFI) based on whether the network entity successfully decodes one or more of the multiple TBs.
RESOURCE BLOCK SET ALLOCATION FOR SUBBAND FULL DUPLEX OPERATION (17997918)
Main Inventor
Changlong XU
Brief explanation
The abstract describes methods, systems, and devices for wireless communications. It explains that the method involves identifying a configuration of resource block sets in a radio frequency spectrum band for a user equipment (UE). The UE then receives a downlink control information message from a base station, which indicates the communication direction for each resource block set. The UE communicates with the base station using the resource block sets according to the communication directions specified in the received message.
Abstract
Methods, systems, and devices for wireless communications are described. The method may include identifying, for the UE, a configuration of a set of resource block sets of a radio frequency spectrum band, receiving, from a base station, a downlink control information message indicating, for each resource block set of the set of resource block sets, a communication direction for the resource block set, and communicating with the base station using one or more resource block sets of the set of resource block sets according to one or more communication directions indicated by the received downlink control information message, the one or more communication directions corresponding to respective ones of the one or more resource block sets.
INTER-OPERATOR MULTICAST AND UNICAST CONVERGENCE TRANSMISSION (17997895)
Main Inventor
Yiqing CAO
Brief explanation
The abstract describes a wireless communication system where a user device can receive different parts of a communication from different base stations without needing to retransmit the initial broadcast transmission. This allows for more efficient and seamless communication between different operators.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment may receive, from a first base station associated with a first operator, a broadcast transmission conveying a first portion of a communication; and may receive, without triggering a retransmission of the broadcast transmission, a second portion of the communication via a unicast transmission from a second base station associated with a second operator. Numerous other aspects are provided.
FREQUENCY RESOURCE ALLOCATION FOR REDUCED CAPABILITY DEVICES (17732269)
Main Inventor
Yongjun Kwak
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can indicate its capability to support a restricted bandwidth for data signaling. The UE then receives information about the bandwidth part for control signaling and a set of frequency domain resources for data signaling. The set of frequency domain resources is a subset of the bandwidth part, based on the restricted bandwidth. The UE can then use the bandwidth part for control signaling and the set of frequency domain resources for data signaling. The restriction on bandwidth can be determined by the size of the frequency domain resources or the number of resource blocks in the set.
Abstract
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may transmit an indication of a capability of the UE to support a restricted bandwidth for data signaling. The UE may receive an indication of a bandwidth part for control signaling and an indication of a set of frequency domain resources for the data signaling. The set of frequency domain resources may correspond to a subset of the bandwidth part in accordance with the restricted bandwidth. The UE may communicate the control signaling over the bandwidth part and data signaling over the set of frequency domain resources. In some cases, the bandwidth restriction may correspond to a bandwidth size for the set of frequency domain resources or a number of resource blocks in the set of frequency domain resources.
DOWNLINK BEAM LEVEL MANAGEMENT (17661521)
Main Inventor
Jun ZHU
Brief explanation
The abstract describes a wireless communication system where a user device can receive information about the amount of data to be received, the quality of the communication channel, and the throughput of applications. Based on this information, the user device can adjust the beam level to optimize the communication.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may obtain, in association with a downlink beam for receiving downlink communications, downlink information indicating at least one of: an amount of downlink traffic to be received by the UE via the downlink beam, at least one channel quality metric associated with the downlink beam, or an application downlink throughput metric associated with one or more applications of the UE. The UE may modify a beam level associated with the downlink beam based at least in part on the downlink information. Numerous other aspects are provided.
WEIGHTED DECISION PROCESS-BASED RESOURCE SENSING (17734353)
Main Inventor
Ahmed Elshafie
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains that a wireless device can receive information from another wireless device about a set of resources and their weighted selection for resource sensing. The wireless device then selects a sensing state for the set of resources based on these weights. It performs sensing on a subset of the resources and communicates with another wireless device based on occupancy state determinations for the resources. The occupancy state determinations for the subset of resources are based on the sensing, while the occupancy state determinations for another subset of resources are predetermined.
Abstract
Methods, systems, and devices for wireless communications are described. For instance, a wireless device may receive, from a second wireless device, an indication of a set of resources associated with weighted selection of resource sensing. The wireless device may select a sensing state of a set of sensing states for the set of resources based on applying a respective weight to each sensing state of the set of sensing states. The wireless device may perform sensing over a first subset of the set of resources based on the selected sensing state and may communicate a message with a third wireless device based on respective occupancy state determinations for the set of resources, where the respective occupancy state determinations for the first subset are based on performing the sensing and the respective occupancy state determinations for a second subset of the set of resources are based on a predetermined occupancy state.
CG HARQ-ACK ENHANCEMENTS (17661269)
Main Inventor
Ahmed ELSHAFIE
Brief explanation
The abstract describes an apparatus that can receive an indication to activate a set of periodic resources in multiple communication channels (CCs) for a Hybrid Automatic Repeat Request (HARQ) codebook. It can also identify information related to canceled HARQ bits, select at least one CC for transmitting this information, and send it to a network node. The apparatus can also transmit an indication to activate periodic resources in multiple CCs and receive information related to canceled HARQ bits from the network node via at least one CC.
Abstract
An apparatus may be configured to receive an indication activating a set of periodic resources in a plurality of CCs for a HARQ codebook, identify information associated with a set of canceled HARQ bits, select at least one CC in the plurality of CCs for transmitting the information associated with a HARQ bit in the set of canceled HARQ bits, and transmit the information associated with the set of canceled HARQ bits to a network node via the at least one CC. The apparatus may be configured to transmit an indication activating a set of periodic resources in a plurality of CCs for a HARQ codebook and receive information associated with a set of canceled HARQ bits from a network node (e.g., a UE) via at least one CC in the plurality of CCs.
PRIORITIZATION RULES FOR UPLINK AND DOWNLINK CHANNELS IN FULL-DUPLEX SYSTEMS (17730970)
Main Inventor
Qian Zhang
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains how a user equipment (UE) operating in a half-duplex mode can be scheduled by a network entity operating in a full-duplex mode. The UE is scheduled to receive a downlink communication and transmit an uplink communication during the same symbol period, with both uplink and downlink channel multiplexing enabled. The UE then communicates with the network entity during this symbol period based on a prioritization rule associated with the half-duplex mode. This prioritization rule determines whether the UE should receive the downlink communication or transmit the uplink communication when both are scheduled in the same symbol period and when uplink and downlink channel multiplexing is enabled.
Abstract
Methods, systems, and devices for wireless communications are described. A user equipment (UE) operating in a half-duplex mode may be scheduled, by a network entity operating in a full-duplex mode, to receive a downlink communication during a symbol period and to transmit an uplink communication during the symbol period, where uplink and downlink channel multiplexing enabled during the symbol period. The UE may then communicate with the network entity during the symbol period via either the downlink communication or the uplink communication in accordance with a prioritization rule associated with the half-duplex mode, where the prioritization rule indicates whether the UE should receive the downlink communication or transmit the uplink communication when the communications are scheduled in the same symbol period and when downlink and uplink channel multiplexing is enabled during the same symbol period.
DYNAMIC INDICATION OF USER EQUIPMENT INITIATED CHANNEL OCCUPANCY TIME (18245704)
Main Inventor
Changlong XU
Brief explanation
The abstract describes a wireless communication system where a user equipment (UE) receives information from a base station about different fixed frame period (FFP) configurations. The UE also receives downlink control information (DCI) from the base station, which includes instructions on whether to enable or disable a UE-initiated channel occupancy time using the FFP configurations. Based on this information, the UE decides whether to initiate its own channel occupancy time or share the one initiated by the base station for an uplink transmission. The abstract mentions that there are numerous other aspects provided, but does not provide further details.
Abstract
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a base station, information indicating one or more fixed frame period (FFP) configurations in a frame based equipment (FBE) mode. The UE may receive, from the base station, downlink control information (DCI) that schedules an uplink transmission, wherein the DCI includes content to enable or disable a UE-initiated channel occupancy time using the one or more FFP configurations. The UE may determine whether to initiate a channel occupancy time or share a channel occupancy time initiated by the base station to perform the uplink transmission based at least in part on the content in the DCI scheduling the uplink transmission. Numerous other aspects are provided.
RACH RESOURCE SELECTION (17661108)
Main Inventor
Ambarish TRIPATHI
Brief explanation
The abstract describes a method for a user equipment (UE) to select and transmit a RACH message to a network node. The UE obtains information about a subset of PRACH resources that meet a certain threshold value. It then selects a specific PRACH resource based on its channel metrics or associated parameters. The UE evaluates multiple qualifying SSBs/CSI-RSs and selects one based on scheduling opportunities and power usage.
Abstract
A UE may obtain an indication of a first subset of PRACH resources in a set of PRACH resources, the first subset of PRACH resources having a set of channel metrics that is greater than or equal to a first threshold value, select a first PRACH resource from the first subset of PRACH resources based on a first set of channel metrics of the first PRACH resource or a first RO associated with the first PRACH resource, and transmit a RACH message to a network node in the first RO. The UE may evaluate the multiple qualifying SSBs/CSI-RSs and select one SSB/CSI-RS among the qualifying SSBs/CSI-RSs based on a scheduling opportunity of the associated ROs and a power usage on the UE side.
CLOSED LOOP TIME AND FREQUENCY CORRECTIONS IN NON-TERRESTRIAL NETWORKS (17733636)
Main Inventor
Ayan Sengupta
Brief explanation
This abstract describes methods, systems, and devices for wireless communications. It explains techniques for reducing errors in time or frequency adjustments for preambles of a random access procedure. In this process, a user equipment (UE) may use a specific adjustment value when transmitting data to a non-terrestrial network. However, when transmitting the preamble of a random access procedure, the UE adjusts the timing or frequency based on indications received from the network, rather than resetting the adjustment to zero. This approach helps maintain or improve the reception performance of the preamble, requiring fewer position measurements for the UE or non-terrestrial network entity.
Abstract
Methods, systems, and devices for wireless communications are described. Described techniques provide for mitigating error in time or frequency adjustments for preambles of a random access procedure. A user equipment may use one value for the adjustment when transmitting data to a non-terrestrial network, but then transmit the preamble of a random access procedure according to a preamble-specific time or frequency adjustment based on one or more indications received from the network (e.g., rather than resetting the adjustment to “0”). By using some signaled value for the preamble-specific timing or frequency adjustment rather than resetting the adjustment to “0,” preamble reception performance may be maintained or improved with as many or fewer position measurements for the UE or non-terrestrial network entity.
KEEP-ALIVE SIGNAL FOR NETWORK ENERGY SAVING IN A WIRELESS NETWORK (18308552)
Main Inventor
Navid ABEDINI
Brief explanation
The abstract describes techniques and devices for using keep-alive signaling to save energy in a network when it is not in use. This involves transmitting a keep-alive signal (KAS) to reduce energy consumption. The KAS can be a smaller version of a synchronization signal block (SSB) that is sent more often than the full SSB. It can also have a different beam sweeping pattern and beam width compared to the full SSB.
Abstract
Aspects of the disclosure provide techniques and apparatuses for using keep-alive signaling for network energy saving in an idle mode. A network entity can transmit a keep-alive signal (KAS) to reduce the energy consumption of a network when the network is in an idle mode. In some aspects, the KAS can be a reduced synchronization signal block (SSB) that is sent more frequently than a full SSB. In some aspects, the KAS can have a different beam sweeping pattern and/or beam width from the full SSB.
DRX ADAPTATION FOR POWER SAVING AND LATENCY REDUCTION (17733986)
Main Inventor
Huilin XU
Brief explanation
This abstract describes a system and method for discontinuous reception (DRX) adaptation in a wireless communication system. In this system, a network entity can configure a user equipment (UE) with a long DRX cycle, which means that the UE will periodically enter a sleep mode to conserve power. However, under certain conditions, the network entity can activate additional short DRX cycles to allow data transfer before the next scheduled sleep period. The abstract also mentions that there are multiple ways to communicate the parameters for the short DRX cycles to the UE, either explicitly or implicitly. These parameters can be included in downlink control information or indicated by bits in a Medium Access Control command received by the UE during the long DRX active time.
Abstract
Systems and methods for discontinuous reception (DRX) adaptation in a wireless communication system are provided. A network entity may configure a user equipment (UE) with a long DRX cycle. Under certain conditions, additional short DRX cycles may be activated by the network entity so that data may be transferred before the next DRX active time. Multiple aspects are described wherein short DRX cycle parameters are communicated explicitly or implicitly to the UE. Short DRX cycle parameters may be included and/or indicated by bits in a downlink control information (DCI) or a Medium Access Control (MAC) Control Element (CE) command received by the UE during the long DRX active time.
TECHNIQUES FOR MULTICAST AND UNICAST CONVERGENCE IN WIRELESS COMMUNICATIONS (17796504)
Main Inventor
Yiqing CAO
Brief explanation
The abstract above discusses the management and configuration of radio bearers for user equipment (UE) in relation to unicast and multicast cells. This is done based on measurement reports generated by the UE.
Abstract
Aspects described herein relate to managing and/or configuring, for a user equipment (UE), unicast and/or multicast radio bearers for unicast and/or multicast cells based on measurement reports generated by the UE.