|
|
| Line 1: |
Line 1: |
| − | '''Summary of the patent applications from QUALCOMM Incorporated on October 26th, 2023'''
| |
| − |
| |
| − | QUALCOMM Incorporated has recently filed patents related to various aspects of wireless communication systems and devices. These patents cover methods for creating semiconductor devices with different types of transistors, wireless communication methods for user equipment (UE) to communicate with network entities, transmitting and receiving training field signals over multiple radio frequency sub-bands, sharing channel occupancy time (COT) on sidelink communication, transmitting feedback and collision indications between UEs, measuring cross link interference (CLI) between UEs, supporting multicast services in wireless communications, and switching between bandwidth parts (BWP) in UE communication.
| |
| − |
| |
| − | Notable applications include:
| |
| − |
| |
| − | * Creating semiconductor devices with different types of transistors, each having different gate spacer structures.
| |
| − | * Wireless communication methods for UEs to send messages indicating the types of signals they can receive and receive transmissions from network entities using the supported signal types.
| |
| − | * Wireless communication methods where UEs send random access messages to base stations, and base stations send random access responses with uplink group grants and indications of grant types for multiple UEs.
| |
| − | * Transmitting and receiving training field signals over multiple radio frequency sub-bands by combining signals received from different sub-bands.
| |
| − | * Sharing channel occupancy time (COT) on sidelink communication between UEs and network units.
| |
| − | * Transmitting feedback and collision indications between UEs, prioritizing feedback messages based on indications, and avoiding including collision indications in the same feedback message as feedback indications.
| |
| − | * Measuring cross link interference (CLI) between UEs based on reception quasi co-location (QCL) information and reporting the results to network entities.
| |
| − | * Wireless communication methods for UEs to receive information about a group of resources for sending data and send a subset of the data, including control information.
| |
| − | * Supporting multicast services in wireless communications by triggering UEs to transition to a connected state to receive multicast services.
| |
| − | * Switching between bandwidth parts (BWP) in UE communication based on a default BWP configuration received from the wireless network.
| |
| − |
| |
| − |
| |
| − |
| |
| − |
| |
| | ==Patent applications for QUALCOMM Incorporated on October 26th, 2023== | | ==Patent applications for QUALCOMM Incorporated on October 26th, 2023== |
| | | | |
| Line 372: |
Line 352: |
| | Hyun Yong LEE | | Hyun Yong LEE |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a network node receives information about the deadline for transmitting a set of data packets. This information includes details such as the jitter (variation in transmission delay) of the data packets, a packet delay budget based on the jitter and a nominal delay budget, or an absolute time for the deadline. The network node then uses this information to determine when to transmit the data packets. The abstract mentions that there are other aspects of the system that are described as well.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a network node may receive an indication of a deadline for transmission of a protocol data unit (PDU) set, the indication of the deadline including one or more of: an indication of a jitter of the PDU set, an indication of a packet delay budget that is based at least in part on the jitter of the PDU set and a nominal PDU set delay budget (PSDB), or an indication of an absolute time of the deadline. The network node may transmit the PDU set at a time that is based at least in part on the indication of the deadline. Numerous other aspects are described.
| |
| | | | |
| | ===FLEXIBLE NEGOTIATION OF PARAMETERS IN SETUP EXCHANGES FOR WIRELESS COMMUNICATION SESSIONS ([[US Patent Application 18343246. FLEXIBLE NEGOTIATION OF PARAMETERS IN SETUP EXCHANGES FOR WIRELESS COMMUNICATION SESSIONS simplified abstract|18343246]])=== | | ===FLEXIBLE NEGOTIATION OF PARAMETERS IN SETUP EXCHANGES FOR WIRELESS COMMUNICATION SESSIONS ([[US Patent Application 18343246. FLEXIBLE NEGOTIATION OF PARAMETERS IN SETUP EXCHANGES FOR WIRELESS COMMUNICATION SESSIONS simplified abstract|18343246]])=== |
| Line 386: |
Line 360: |
| | Alfred ASTERJADHI | | Alfred ASTERJADHI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract explains that the present disclosure offers techniques to help a device in a setup procedure propose a range of values for a negotiated parameter more efficiently. This can reduce setup time by eliminating the need for multiple message exchanges in the negotiation process.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques that may allow a device participating in a setup procedure to efficiently propose a range of values for a negotiated parameter. The techniques may reduce setup time, for example, allowing a responder to accept a value within the proposed range which may eliminate overhead associated with some of the back and forth message exchange of typical negotiations.
| |
| | | | |
| | ===MEASUREMENT CONSOLIDATION THRESHOLDS FOR REDUCED CAPABILITY USER EQUIPMENT ([[US Patent Application 18297456. MEASUREMENT CONSOLIDATION THRESHOLDS FOR REDUCED CAPABILITY USER EQUIPMENT simplified abstract|18297456]])=== | | ===MEASUREMENT CONSOLIDATION THRESHOLDS FOR REDUCED CAPABILITY USER EQUIPMENT ([[US Patent Application 18297456. MEASUREMENT CONSOLIDATION THRESHOLDS FOR REDUCED CAPABILITY USER EQUIPMENT simplified abstract|18297456]])=== |
| Line 400: |
Line 368: |
| | Prashant SHARMA | | Prashant SHARMA |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user equipment (UE) receives a measurement configuration from a network node. This configuration includes a measurement consolidation threshold, which determines how the UE should consolidate its measurements. The UE then obtains neighbor cell measurements based on this threshold. The abstract mentions that there are other aspects of the disclosure that are described as well.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a network node, a measurement configuration that indicates a measurement consolidation threshold. The UE may obtain a neighbor cell measurement based at least in part on a value of the measurement consolidation threshold for a UE having a single receive (Rx) chain. Numerous other aspects are described.
| |
| | | | |
| | ===USER EQUIPMENT (UE) CAPABILITY SIGNALING FOR PHYSICAL UPLINK CONTROL CHANNEL (PUCCH) CELL SWITCHING ([[US Patent Application 18078867. USER EQUIPMENT (UE) CAPABILITY SIGNALING FOR PHYSICAL UPLINK CONTROL CHANNEL (PUCCH) CELL SWITCHING simplified abstract|18078867]])=== | | ===USER EQUIPMENT (UE) CAPABILITY SIGNALING FOR PHYSICAL UPLINK CONTROL CHANNEL (PUCCH) CELL SWITCHING ([[US Patent Application 18078867. USER EQUIPMENT (UE) CAPABILITY SIGNALING FOR PHYSICAL UPLINK CONTROL CHANNEL (PUCCH) CELL SWITCHING simplified abstract|18078867]])=== |
| Line 414: |
Line 376: |
| | Yi HUANG | | Yi HUANG |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a method of wireless communication using a user equipment (UE). The UE has the capability to switch between different bands for transmitting control signals. The method involves reporting this capability to the network. The UE can support multiple pairs of band types for this purpose. Each band type in a pair can be used for transmitting control signals. The method also involves transmitting a first control signal using a selected band type from the available pairs. The UE can then switch to a different band type from the same pair to transmit a second control signal.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | A method of wireless communication, by a user equipment (UE), includes reporting a UE capability for physical uplink control channel (PUCCH) cell switching. The UE capability includes at least one pair of band types capable of supporting PUCCH cell switching. Each band type of the at least one pair of band types supports PUCCH cell transmission. The method also includes transmitting a first PUCCH with a first band type selected from the at least one pair of band types. The method further includes switching to a second band type selected from the at least one pair of band types, for transmitting a second PUCCH.
| |
| | | | |
| | ===LOW-LATENCY ENHANCEMENTS FOR A WIRELESS NETWORK ([[US Patent Application 18341702. LOW-LATENCY ENHANCEMENTS FOR A WIRELESS NETWORK simplified abstract|18341702]])=== | | ===LOW-LATENCY ENHANCEMENTS FOR A WIRELESS NETWORK ([[US Patent Application 18341702. LOW-LATENCY ENHANCEMENTS FOR A WIRELESS NETWORK simplified abstract|18341702]])=== |
| Line 428: |
Line 384: |
| | Sai Yiu Duncan HO | | Sai Yiu Duncan HO |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This disclosure describes a wireless communication system that allows for the establishment of a restricted target wake time (TWT) session on a wireless medium. The system is designed to prioritize latency sensitive traffic by reserving access to the wireless medium for specific wireless stations (STAs) associated with this type of traffic. The access point (AP) initiates the restricted TWT session and transmits a clear-to-send (CTS) frame at the beginning of each restricted TWT service period (SP), indicating to other STAs that the wireless medium is unavailable for the duration of that SP. The AP then proceeds to transmit or receive latency sensitive data to or from the designated STAs during at least one of the restricted TWT SPs.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | This disclosure provides systems, methods, and apparatuses for wireless communication that can be used to establish a restricted target wake time (TWT) session on a wireless medium. In some implementations, an access point (AP) establishes a restricted TWT session for one or more wireless stations (STAs) associated with latency sensitive traffic, the restricted TWT session including restricted TWT service periods (SPs) during which the AP reserves access to the wireless medium for only the one or more STAs associated with the latency sensitive traffic. The AP transmits a clear-to-send (CTS) frame at a start of each restricted TWT SP, the CTS frame indicating to other STAs that the wireless medium is unavailable for a duration of the respective restricted TWT SP. The AP transmits latency sensitive data to or receives latency sensitive data from the one or more STAs during at least one of the restricted TWT SPs.
| |
| | | | |
| | ===PHYSICAL LAYER SIGNATURE FOR WAKE-UP SIGNALS ([[US Patent Application 17727477. PHYSICAL LAYER SIGNATURE FOR WAKE-UP SIGNALS simplified abstract|17727477]])=== | | ===PHYSICAL LAYER SIGNATURE FOR WAKE-UP SIGNALS ([[US Patent Application 17727477. PHYSICAL LAYER SIGNATURE FOR WAKE-UP SIGNALS simplified abstract|17727477]])=== |
| Line 442: |
Line 392: |
| | Yavuz Yapici | | Yavuz Yapici |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) and network entity can determine a physical layer (PHY) signature for the network entity to include in wake-up signals (WUSs) transmitted to the UE. The UE can then use this determined PHY signature to validate a received WUS during a monitoring occasion. If the PHY signature of the received WUS matches the determined PHY signature, the UE will wake up according to the WUS. If the PHY signature does not match, the UE will remain in sleep mode. The UE can also transmit an indication of an adversarial attack if the received WUS does not include the determined PHY signature or includes a different PHY signature.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A user equipment (UE) and network entity may determine a physical layer (PHY) signature for the network entity to include in one or more wake-up signals (WUSs) transmitted to the UE. The UE may use the determined PHY signature to validate a WUS received during a monitoring occasion. For example, the UE may compare a PHY signature of the received WUS to the determined PHY signature. If the PHY signature of the received WUS matches the determined PHY signature, the UE may wake up in accordance with the WUS. If the PHY signature of the received WUS does not match the determined PHY signature, the UE may remain in a sleep mode. The UE may transmit an indication of an adversarial attack based on the received WUS not including the determined PHY signature or including a different PHY signature.
| |
| | | | |
| | ===REFERENCE SIGNAL RESOURCE POWER OFFSET ([[US Patent Application 17660535. REFERENCE SIGNAL RESOURCE POWER OFFSET simplified abstract|17660535]])=== | | ===REFERENCE SIGNAL RESOURCE POWER OFFSET ([[US Patent Application 17660535. REFERENCE SIGNAL RESOURCE POWER OFFSET simplified abstract|17660535]])=== |
| Line 456: |
Line 400: |
| | Ahmed Attia ABOTABL | | Ahmed Attia ABOTABL |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a network node sends information to a user equipment (UE) about different power control offsets related to a reference signal resource. The network node then receives a measurement from the UE based on the reference signal resource and one of the power control offsets. The abstract mentions that there are other aspects of the system that are described as well.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a network node may transmit, to a user equipment (UE), information that indicates a plurality of power control offsets associated with a reference signal resource. The network node may receive, from the UE, a measurement that is based at least in part on the reference signal resource and a power control offset of the plurality of power control offsets. Numerous other aspects are described.
| |
| | | | |
| | ===EXCEPTION-ROBUST TIME-AVERAGED RADIO FREQUENCY EXPOSURE COMPLIANCE CONTINUITY ([[US Patent Application 18341561. EXCEPTION-ROBUST TIME-AVERAGED RADIO FREQUENCY EXPOSURE COMPLIANCE CONTINUITY simplified abstract|18341561]])=== | | ===EXCEPTION-ROBUST TIME-AVERAGED RADIO FREQUENCY EXPOSURE COMPLIANCE CONTINUITY ([[US Patent Application 18341561. EXCEPTION-ROBUST TIME-AVERAGED RADIO FREQUENCY EXPOSURE COMPLIANCE CONTINUITY simplified abstract|18341561]])=== |
| Line 470: |
Line 408: |
| | Troy CURTISS | | Troy CURTISS |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technique for ensuring compliance with radio frequency (RF) exposure regulations. The method involves a user equipment (UE) transmitting a signal at a certain power level based on RF exposure measurements over a specific time period. The RF exposure information is stored. If an exception event occurs, the UE detects it and adjusts the transmission power of the signal based on the stored RF exposure information.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques for exception-robust time-averaged radio frequency (RF) exposure compliance continuity. A method that may be performed by a user equipment (UE) generally includes transmitting a first signal at a first transmission power based on time-averaged RF exposure measurements over a time window and storing RF exposure information associated with the time window. The method may also include detecting that an exception event associated with the UE occurred and transmitting a second signal at a second transmission power based at least in part on the stored RF exposure information in response to the detection of the event.
| |
| | | | |
| | ===SOUNDING REFERENCE SIGNAL POWER CONTROL CONSISTENCY WITH UNIFIED TRANSMISSION CONFIGURATION INDICATORS ([[US Patent Application 17660410. SOUNDING REFERENCE SIGNAL POWER CONTROL CONSISTENCY WITH UNIFIED TRANSMISSION CONFIGURATION INDICATORS simplified abstract|17660410]])=== | | ===SOUNDING REFERENCE SIGNAL POWER CONTROL CONSISTENCY WITH UNIFIED TRANSMISSION CONFIGURATION INDICATORS ([[US Patent Application 17660410. SOUNDING REFERENCE SIGNAL POWER CONTROL CONSISTENCY WITH UNIFIED TRANSMISSION CONFIGURATION INDICATORS simplified abstract|17660410]])=== |
| Line 484: |
Line 416: |
| | Mostafa KHOSHNEVISAN | | Mostafa KHOSHNEVISAN |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device (UE) receives a configuration for a sounding reference signal (SRS). The configuration includes two lists of SRS resource sets. The UE uses a transmission configuration indicator (TCI) state configuration to determine power control parameters for the SRS resource sets. Based on these parameters, the UE transmits a first SRS associated with the first resource set and a second SRS associated with the second resource set. The abstract mentions that there are numerous other aspects described in the disclosure.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a sounding reference signal (SRS) configuration comprising a first List of SRS resource sets indicating a first SRS resource set and a second List of SRS resource sets indicating a second SRS resource set. The UE may determine, based at least in part on a transmission configuration indicator (TCI) state configuration that indicates at least one of a first TCI state or a second TCI state, a set of power control parameters corresponding to the first SRS resource set and the second SRS resource set. The UE may transmit, based at least in part on the set of power control parameters, a first SRS associated with the first SRS resource set and a second SRS associated with the second SRS resource set. Numerous other aspects are described.
| |
| | | | |
| | ===EMISSION CONTROL OF AN AERIAL USER EQUIPMENT ([[US Patent Application 17660117. EMISSION CONTROL OF AN AERIAL USER EQUIPMENT simplified abstract|17660117]])=== | | ===EMISSION CONTROL OF AN AERIAL USER EQUIPMENT ([[US Patent Application 17660117. EMISSION CONTROL OF AN AERIAL USER EQUIPMENT simplified abstract|17660117]])=== |
| Line 498: |
Line 424: |
| | Le LIU | | Le LIU |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device can receive information about different emission control settings for different operating configurations. Based on its own operating configuration, the user device can then transmit communication using the appropriate emission control setting.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may obtain emission control information that indicates a first emission control configuration associated with a first operating configuration and a second emission control configuration associated with a second operating configuration. The UE may transmit, using the first emission control configuration or the second emission control configuration based at least in part on a UE operating configuration associated with the UE, a communication. Numerous other aspects are described.
| |
| | | | |
| | ===APERIODIC TRACKING REFERENCE SIGNAL TRIGGERING MECHANISM TO UPDATE TRACKING REFERENCE SIGNAL POWER ([[US Patent Application 17728719. APERIODIC TRACKING REFERENCE SIGNAL TRIGGERING MECHANISM TO UPDATE TRACKING REFERENCE SIGNAL POWER simplified abstract|17728719]])=== | | ===APERIODIC TRACKING REFERENCE SIGNAL TRIGGERING MECHANISM TO UPDATE TRACKING REFERENCE SIGNAL POWER ([[US Patent Application 17728719. APERIODIC TRACKING REFERENCE SIGNAL TRIGGERING MECHANISM TO UPDATE TRACKING REFERENCE SIGNAL POWER simplified abstract|17728719]])=== |
| Line 512: |
Line 432: |
| | Ahmed Attia Abotabl | | Ahmed Attia Abotabl |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive control signaling from a network entity, which schedules multiple periodic tracking reference signals (TRSs) and specifies the transmission power level for these signals. The control signaling is typically received through radio resource control (RRC). The UE also receives a downlink control information (DCI) message from the network entity, which indicates an adjustment to the transmission power level and assigns a resource for an aperiodic TRS. The UE then monitors this resource based on the indicated power level adjustment. Finally, the UE transmits a message to the network entity, indicating a measurement of the aperiodic TRS based on the power level adjustment. This adjustment can apply to one or more of the multiple periodic TRSs.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive control signaling from a network entity scheduling a set of multiple periodic tracking reference signals (TRSs) and indicating a transmission power level for the periodic TRSs. For example, the control signaling may be received via radio resource control (RRC). The UE may receive a downlink control information (DCI) message from the network entity indicating an adjustment to the transmission power level and a resource for an aperiodic TRS. The UE may monitor the resource for the aperiodic TRS in accordance with the indicated adjustment to the transmission power level. The UE may transmit a message to the network entity indicating a measurement of the aperiodic TRS based on the adjustment to the power level. The adjustment to the power level may apply to one or more of the set of multiple periodic TRSs.
| |
| | | | |
| | ===SSB REPETITION IN FREQUENCY DOMAIN ([[US Patent Application 17727652. SSB REPETITION IN FREQUENCY DOMAIN simplified abstract|17727652]])=== | | ===SSB REPETITION IN FREQUENCY DOMAIN ([[US Patent Application 17727652. SSB REPETITION IN FREQUENCY DOMAIN simplified abstract|17727652]])=== |
| Line 526: |
Line 440: |
| | Ahmed Attia Abotabl | | Ahmed Attia Abotabl |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive control signaling from a network entity, which indicates a pattern for multiple synchronization signal blocks (SSBs). These SSBs are multiplexed across both time and frequency domains. The UE then monitors for two or more SSBs within a specific time period and activated bandwidth part. Finally, the UE transmits an indication of one of the SSBs back to the network entity to facilitate further communications.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive, from a network entity, control signaling that indicates a sweeping pattern for multiple synchronization signal blocks (SSBs), which repeats over multiple time periods. The multiple SSBs may be multiplexed across a time domain and a frequency domain. The UE may monitor for two or more SSBs that are multiplexed across the time domain and the frequency domain during a time period of the multiple time periods and within an activated bandwidth part. The UE may transmit, to the network entity, an indication of one of the multiple SSBs to facilitate further communications.
| |
| | | | |
| | ===CONFIGURABLE SYNCHRONIZATION SIGNAL AND PHYSICAL BROADCAST CHANNEL BLOCK PATTERN ([[US Patent Application 18302442. CONFIGURABLE SYNCHRONIZATION SIGNAL AND PHYSICAL BROADCAST CHANNEL BLOCK PATTERN simplified abstract|18302442]])=== | | ===CONFIGURABLE SYNCHRONIZATION SIGNAL AND PHYSICAL BROADCAST CHANNEL BLOCK PATTERN ([[US Patent Application 18302442. CONFIGURABLE SYNCHRONIZATION SIGNAL AND PHYSICAL BROADCAST CHANNEL BLOCK PATTERN simplified abstract|18302442]])=== |
| Line 540: |
Line 448: |
| | Jing LEI | | Jing LEI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device receives information about how to transmit synchronization signals and physical broadcast channels. This transmission pattern is specific to a certain type of radio access technology. The user device then receives the actual transmission in a shared spectrum between two different radio access technologies. The abstract mentions that there are other aspects of this communication system that are described in more detail.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive an indication of a configuration that specifies a transmission pattern for a synchronization signal and physical broadcast channel (PBCH) block (SSB) of a first radio access technology (RAT). The UE may receive the SSB, according to the configuration, in a spectrum that is shared between the first RAT and a second RAT. Numerous other aspects are described.
| |
| | | | |
| | ===PAGING ENHANCEMENTS FOR SINGLE-SIM AND MULTI-SIM DEVICES ([[US Patent Application 17729727. PAGING ENHANCEMENTS FOR SINGLE-SIM AND MULTI-SIM DEVICES simplified abstract|17729727]])=== | | ===PAGING ENHANCEMENTS FOR SINGLE-SIM AND MULTI-SIM DEVICES ([[US Patent Application 17729727. PAGING ENHANCEMENTS FOR SINGLE-SIM AND MULTI-SIM DEVICES simplified abstract|17729727]])=== |
| Line 554: |
Line 456: |
| | Akash SRIVASTAVA | | Akash SRIVASTAVA |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes techniques for merging pages in communications systems using carrier aggregation or secondary component carriers. It explains that a user equipment (UE) can operate in a connected mode using a default data subscription (DDS) associated with a primary cell (PCell). The UE can then detect one or more secondary cells (SCells) that are configured for operating in the connected mode. Finally, the UE can decode one or more paging messages using at least a secondary component carrier (SCC) associated with a first SCell of the detected SCells.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques for merging pages in communications systems using carrier aggregation (CA) or secondary component carriers (SCCs). An example method that may be performed by a user equipment (UE) includes: operating in a connected mode using a default data subscription (DDS) associated with a primary cell (PCell); detecting one or more secondary cells (SCells) associated with the DDS are configured for operating in the connected mode; and decoding one or more paging messages using at least a secondary component carrier (SCC) associated with a first SCell of the one or more SCells.
| |
| | | | |
| | ===TECHNIQUES FOR PAGING EARLY INDICATION REPETITION ([[US Patent Application 18329096. TECHNIQUES FOR PAGING EARLY INDICATION REPETITION simplified abstract|18329096]])=== | | ===TECHNIQUES FOR PAGING EARLY INDICATION REPETITION ([[US Patent Application 18329096. TECHNIQUES FOR PAGING EARLY INDICATION REPETITION simplified abstract|18329096]])=== |
| Line 568: |
Line 464: |
| | Huilin Xu | | Huilin Xu |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It introduces the concept of a base station transmitting a paging early indication (PEI) signal to a user equipment (UE) to indicate that the UE will receive paging signaling. However, there may be instances where there is a scheduling conflict for transmitting the PEI signal, such as when it collides with other downlink signaling. The abstract mentions that the UE can resolve these conflicts by receiving either the colliding PEI signaling or the colliding downlink signaling based on their priorities. Alternatively, the PEI signaling can be delayed until after the downlink signaling ends. The abstract also mentions that the UE may be configured with a subset of blind decoding hypotheses for PEI decoding.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A base station may transmit multiple repetitions of a paging early indication (PEI) signal to a user equipment (UE) to indicate that the UE is to receive paging signaling in a paging occasion. In some cases, a PEI occasion for transmitting a PEI repetition may have a scheduling conflict. For example, a PEI occasion may collide with other downlink signaling. A UE may implement techniques to resolve scheduling conflicts or collisions for PEI repetitions. For example, the UE may be configured to receive either colliding PEI signaling or colliding downlink signaling based on priorities of the signaling. Additionally, or alternatively, PEI signaling may be shifted (e.g., delayed) until after the downlink signaling ends. In some cases, a UE may be configured with a subset of blind decoding hypotheses for PEI decoding.
| |
| | | | |
| | ===PERFORMING A CONNECTION SETUP BASED AT LEAST IN PART ON A PAGING MESSAGE ([[US Patent Application 17660338. PERFORMING A CONNECTION SETUP BASED AT LEAST IN PART ON A PAGING MESSAGE simplified abstract|17660338]])=== | | ===PERFORMING A CONNECTION SETUP BASED AT LEAST IN PART ON A PAGING MESSAGE ([[US Patent Application 17660338. PERFORMING A CONNECTION SETUP BASED AT LEAST IN PART ON A PAGING MESSAGE simplified abstract|17660338]])=== |
| Line 582: |
Line 472: |
| | Tom CHIN | | Tom CHIN |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device (UE) can connect to two different network entities using two transmit chains. The UE can receive a paging message from a second network entity while connected to the first entity. The first entity can request the UE to switch to a mode that supports only one transmit chain. The UE then reduces its transmit chains to one for the first entity. The UE can continue the connection setup with the second entity based on this change.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may establish, by a first subscription of the UE, a connection to a first network entity using two transmit (Tx) chains of the UE. The UE may receive, by a second subscription of the UE, a paging message from a second network entity. The UE may receive, by the first subscription from the second subscription, a request for the first subscription to enter a mode that supports one Tx chain. The UE, by the first subscription, may reduce the two Tx chains to the one Tx chain for the first subscription. The UE may perform, by the second subscription to the second network entity, the connection setup based at least in part on the first subscription reducing the two Tx chains to the one Tx chain. Numerous other aspects are described.
| |
| | | | |
| | ===REQUESTING SIDELINK RESOURCES FOR SIDELINK COMMUNICATIONS OUTSIDE OF A NETWORK SERVICE REGION ([[US Patent Application 17660181. REQUESTING SIDELINK RESOURCES FOR SIDELINK COMMUNICATIONS OUTSIDE OF A NETWORK SERVICE REGION simplified abstract|17660181]])=== | | ===REQUESTING SIDELINK RESOURCES FOR SIDELINK COMMUNICATIONS OUTSIDE OF A NETWORK SERVICE REGION ([[US Patent Application 17660181. REQUESTING SIDELINK RESOURCES FOR SIDELINK COMMUNICATIONS OUTSIDE OF A NETWORK SERVICE REGION simplified abstract|17660181]])=== |
| Line 596: |
Line 480: |
| | Bapineedu Chowdary GUMMADI | | Bapineedu Chowdary GUMMADI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user equipment (UE) can send assistance information while it is in a network service area, based on the prediction that it will soon leave that area. The UE will then receive a set of sidelink resources based on the assistance information it sent. The abstract suggests that there are other aspects and details provided in the full disclosure.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit assistance information while the UE is located in a network service region and based at least in part on a prediction that the UE will leave the network service region. The UE may receive, based at least in part on the assistance information, an allocation of a set of sidelink resources. Numerous other aspects are provided.
| |
| | | | |
| | ===VIRTUAL CELL GROUPING FOR WIRELESS COMMUNICATIONS ([[US Patent Application 17726792. VIRTUAL CELL GROUPING FOR WIRELESS COMMUNICATIONS simplified abstract|17726792]])=== | | ===VIRTUAL CELL GROUPING FOR WIRELESS COMMUNICATIONS ([[US Patent Application 17726792. VIRTUAL CELL GROUPING FOR WIRELESS COMMUNICATIONS simplified abstract|17726792]])=== |
| Line 610: |
Line 488: |
| | Kazuki Takeda | | Kazuki Takeda |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive control signaling from a network entity that configures a virtual cell group consisting of multiple cells. Each cell in the virtual cell group has a radio frequency spectrum band with a frequency gap that is larger than a certain threshold. The network entity can transmit additional control signaling to the UE, which includes information about the virtual cell group. This additional control signaling may include resource allocation information, allowing the UE to communicate through multiple shared channels using different cells in the virtual cell group. Alternatively, the additional control signaling may include a cancellation indication, prompting the UE to refrain from using one or more cells in the virtual cell group for communication.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive control signaling from a network entity configuring a virtual cell group with multiple cells, where each cell may have a radio frequency spectrum band with a frequency gap that exceeds an operating band threshold. The network entity may transmit additional control signaling including information for the virtual cell group. In some cases, the additional control signaling may include resource allocation information for the virtual cell group, such that the UE may communicate multiple shared channels via different cells in the virtual cell group using the resources indicated in the resource allocation information. In some other cases, the additional control signaling may include a cancellation indication for the virtual cell group, such that the UE may refrain from communicating signals using one or more cells of the virtual cell group.
| |
| | | | |
| | ===METHOD AND APPARATUS FOR TRANSMITTING OR RECEIVING CENTRIC FREQUENCY DOMAIN RESOURCE ALLOCATION ([[US Patent Application 17727408. METHOD AND APPARATUS FOR TRANSMITTING OR RECEIVING CENTRIC FREQUENCY DOMAIN RESOURCE ALLOCATION simplified abstract|17727408]])=== | | ===METHOD AND APPARATUS FOR TRANSMITTING OR RECEIVING CENTRIC FREQUENCY DOMAIN RESOURCE ALLOCATION ([[US Patent Application 17727408. METHOD AND APPARATUS FOR TRANSMITTING OR RECEIVING CENTRIC FREQUENCY DOMAIN RESOURCE ALLOCATION simplified abstract|17727408]])=== |
| Line 624: |
Line 496: |
| | Chih-Hao Liu | | Chih-Hao Liu |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes methods, systems, and devices for wireless communication. It explains that a user equipment (UE) can send signals to other devices (sidelink UE) indicating the configuration of a resource block set. This configuration is determined based on the type of sidelink communication needed and a set of available configurations, including a minimum overlapping frequency resource block set configuration. The UE then uses this configuration to perform sidelink communications with the other devices.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communication are described. A user equipment (UE) may transmit signaling that includes an indication of a resource block set configuration to one or more sidelink UE, the resource block set configuration based at least in part on a type of sidelink communications to be performed and from a set of available resource block set configurations that comprises at least a minimum overlapping frequency resource block set configuration. The UE may perform the sidelink communications with the one or more sidelink UE according to the resource block set configuration.
| |
| | | | |
| | ===INDICATION OF NON-PREFERRED RESOURCES FOR SIDELINK COMMUNICATIONS ([[US Patent Application 18343650. INDICATION OF NON-PREFERRED RESOURCES FOR SIDELINK COMMUNICATIONS simplified abstract|18343650]])=== | | ===INDICATION OF NON-PREFERRED RESOURCES FOR SIDELINK COMMUNICATIONS ([[US Patent Application 18343650. INDICATION OF NON-PREFERRED RESOURCES FOR SIDELINK COMMUNICATIONS simplified abstract|18343650]])=== |
| Line 638: |
Line 504: |
| | Hamed PEZESHKI | | Hamed PEZESHKI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a system and method for wireless communication. It explains that a first user equipment (UE) can determine certain parameters related to sidelink communications between itself and a second UE. Based on these parameters, the first UE can identify certain resources that are not preferred for the sidelink communications. The first UE then sends a message indicating these non-preferred resources to the second UE.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Disclosed are systems and techniques for wireless communications. For instance, a first user equipment (UE) can determine one or more parameters associated with sidelink communications between the first UE and a second UE. The first UE can determine, based on the one or more parameters, one or more non-preferred resources associated with the sidelink communications. The first UE can transmit an indication of the one or more non-preferred resources associated with the sidelink communications.
| |
| | | | |
| | ===OVERLAPPING RESOURCE POOLS IN SIDELINK COMMUNICATION ([[US Patent Application 17660613. OVERLAPPING RESOURCE POOLS IN SIDELINK COMMUNICATION simplified abstract|17660613]])=== | | ===OVERLAPPING RESOURCE POOLS IN SIDELINK COMMUNICATION ([[US Patent Application 17660613. OVERLAPPING RESOURCE POOLS IN SIDELINK COMMUNICATION simplified abstract|17660613]])=== |
| Line 652: |
Line 512: |
| | Chih-Hao LIU | | Chih-Hao LIU |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a wireless communication system and method. It involves a first user device monitoring two different resource pools associated with time slots. The second resource pool partially overlaps with the first one. The first user device receives an indicator from a second user device, indicating which resource pool to use. Based on this indicator, the first user device receives a communication from the second user device using the selected resource pool.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Wireless communications systems, apparatuses, and methods are provided. A method of wireless communication performed by a first sidelink user equipment (UE) may include monitoring a first resource pool (RP) associated with a slot, monitoring a second RP associated with one or more sub-slots, wherein the second RP at least partially overlaps the first RP, receiving, from a second sidelink UE, an indicator indicating a selection of the first RP or the second RP, and receiving, from the second sidelink UE, a communication via the first RP or the second RP based on the indicator.
| |
| | | | |
| | ===CONFIGURED GRANT RESOURCE CONFIGURATION FOR NEW RADIO-UNLICENSED ([[US Patent Application 18342383. CONFIGURED GRANT RESOURCE CONFIGURATION FOR NEW RADIO-UNLICENSED simplified abstract|18342383]])=== | | ===CONFIGURED GRANT RESOURCE CONFIGURATION FOR NEW RADIO-UNLICENSED ([[US Patent Application 18342383. CONFIGURED GRANT RESOURCE CONFIGURATION FOR NEW RADIO-UNLICENSED simplified abstract|18342383]])=== |
| Line 666: |
Line 520: |
| | Kapil Bhattad | | Kapil Bhattad |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes the configurations for a new radio unlicensed (NR-U) system called Configured Grant (CG). CG configurations can be provided using a bitmap or a resource indicator value (RIV) signaling of start/end symbols. These configurations allocate time division resources and can include common start/end symbols for contiguous allocations. The CG configuration allows for mini-slots within already configured CG slots. There are two types of repetition configurations for coverage and faster retransmission. Multiple user equipment (UE) can be identified in the uplink control information (UCI) and UEs can increase power in the absence of downlink feedback information (DFI).
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Configurations for configured grant (CG) in new radio unlicensed (NR-U) systems is disclosed. CG configurations may, based on a periodicity, be provided either using a bitmap, shorter periodicity, or resource indicator value (RIV) signaling of start/end symbols, longer periodicity. Such CG configurations configure M sets of time division resource allocations. CG configuration may include common start/end symbols from for all contiguous allocations in one configuration. Common LBT starting points may be defined for all configured slots as indicated through a bitmap. The CG configuration allows for mini- and full slot configurations, in which the mini-slots are configured within the already configured CG slots. Repetition configurations include a type 1 for coverage and a type 2 for faster retransmission and reduced downlink feedback information (DFI) overhead. With multiple UEs, a UE identifier is added to the uplink control information (UCI). UEs may further ramp up power in the absence of DFI.
| |
| | | | |
| | ===SIGNALING FOR SLOT AGGREGATION ([[US Patent Application 18343918. SIGNALING FOR SLOT AGGREGATION simplified abstract|18343918]])=== | | ===SIGNALING FOR SLOT AGGREGATION ([[US Patent Application 18343918. SIGNALING FOR SLOT AGGREGATION simplified abstract|18343918]])=== |
| Line 680: |
Line 528: |
| | Joseph Binamira SORIAGA | | Joseph Binamira SORIAGA |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes techniques for slot aggregation in new radio (NR) systems. It explains that a user equipment (UE) can receive radio resource control (RRC) signaling that provides a configuration for transmitting and/or receiving repeated transport blocks (TBs) or different TBs in multiple aggregated slots. The UE then transmits or receives the TBs in these aggregated slots based on the provided configuration. Additionally, the UE can transmit and/or receive a demodulation reference signal (DMRS) in each of the aggregated slots, where each DMRS is associated with a repeated TB or a different TB in the slot. The UE determines whether the DMRS uses the same precoder or a different precoder based on received signaling, and modulates and/or demodulates the TBs in the aggregated slots accordingly.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques for slot aggregation in new radio (NR) systems. A method of wireless communication by a user equipment (UE) includes receiving radio resource control (RRC) signaling providing a semi-static configuration for transmission and/or reception of a repeated transport block (TB) and/or a different TB in each of a plurality of aggregated slots. The UE transmits or receives the TBs in the plurality of aggregated slots based on the semi-static configuration. Another method is provided in which the UE transmits and/or receives a demodulation reference signal (DMRS) in each of a plurality of aggregated slots, each DMRS associated with a repeated TB or a different TB in the slot. The UE determines, based on received signaling, whether the DMRS use a same precoder or a different precoder and modulates and/or demodulates the TBs in the plurality of aggregated slots based on the determination.
| |
| | | | |
| | ===USER EQUIPMENT BEAM MANAGEMENT CAPABILITY REPORTING ([[US Patent Application 18186595. USER EQUIPMENT BEAM MANAGEMENT CAPABILITY REPORTING simplified abstract|18186595]])=== | | ===USER EQUIPMENT BEAM MANAGEMENT CAPABILITY REPORTING ([[US Patent Application 18186595. USER EQUIPMENT BEAM MANAGEMENT CAPABILITY REPORTING simplified abstract|18186595]])=== |
| Line 694: |
Line 536: |
| | Tianyang BAI | | Tianyang BAI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for wireless communications on a wireless device. The method involves obtaining a configuration for reporting beam management (BM) related information and transmitting a BM report based on this configuration. The BM report includes an indication of the device's BM related capability.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques for method for wireless communications at a wireless device. The method generally includes obtaining a configuration for reporting beam management (BM) related information and outputting, for transmission, a BM report in accordance with the configuration, the BM report including an indication of a BM related capability.
| |
| | | | |
| | ===ADAPTIVE RADIO FREQUENCY COEXISTENCE MITIGATION ([[US Patent Application 17729204. ADAPTIVE RADIO FREQUENCY COEXISTENCE MITIGATION simplified abstract|17729204]])=== | | ===ADAPTIVE RADIO FREQUENCY COEXISTENCE MITIGATION ([[US Patent Application 17729204. ADAPTIVE RADIO FREQUENCY COEXISTENCE MITIGATION simplified abstract|17729204]])=== |
| Line 708: |
Line 544: |
| | Francis Ming-Meng NGAI | | Francis Ming-Meng NGAI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication device that has a transmitter and a receiver using different communication protocols. The device has two antennas, one for transmitting and one for receiving, which are physically separated by a variable distance. The device can transmit and receive signals within different frequency ranges. When there is overlap between the transmission and reception frequencies, the device uses a procedure to minimize interference based on the distance between the antennas.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Aspects relate to wireless communication at a wireless communication device. The wireless communication device may include a transmitter configured to communicate using a first communication protocol, a receiver configured to communicate using a second communication protocol, different from the first communication protocol, a first antenna coupled to the transmitter, a second antenna coupled to the receiver and physically separated from the first antenna by a variable distance. The wireless communication device transmits, via the first antenna, a first transmission within a first frequency range, and receives via the second antenna, a second transmission within a second frequency range that overlaps the first frequency range. To receive the second transmission, the device may perform a radio frequency coexistence mitigation procedure based on the variable distance between the first antenna and the second antenna in response to detection of a concurrency in time between the first transmission and the second transmission.
| |
| | | | |
| | ===AUTONOMOUS UPLINK TRANSMISSION TECHNIQUES USING SHARED RADIO FREQUENCY SPECTRUM ([[US Patent Application 18194962. AUTONOMOUS UPLINK TRANSMISSION TECHNIQUES USING SHARED RADIO FREQUENCY SPECTRUM simplified abstract|18194962]])=== | | ===AUTONOMOUS UPLINK TRANSMISSION TECHNIQUES USING SHARED RADIO FREQUENCY SPECTRUM ([[US Patent Application 18194962. AUTONOMOUS UPLINK TRANSMISSION TECHNIQUES USING SHARED RADIO FREQUENCY SPECTRUM simplified abstract|18194962]])=== |
| Line 722: |
Line 552: |
| | Srinivas YERRAMALLI | | Srinivas YERRAMALLI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes techniques for autonomous uplink (AUL) transmissions that aim to efficiently utilize shared radio frequency spectrum band resources. The user equipment (UE) can determine the duration of an AUL transmission and modify the uplink waveform or inform the base station about available channel resources. This helps in maximizing the utilization of shared radio frequency spectrum band resources within a maximum channel occupancy time (MCOT). The base station can control the activation or deactivation of AUL transmissions through downlink control information (DCI) sent to the UE. The UE and base station can exchange various control information to ensure efficient autonomous uplink transmissions and optimal use of the shared radio frequency spectrum band resources.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Techniques for autonomous uplink (AUL) transmissions are provided that allow for efficient use of shared radio frequency spectrum band resources. A user equipment (UE) may determine a duration of an AUL transmission and modify an uplink waveform or provide an indication to a base station of one or more channel resources that may be available for base station transmissions, in order to more fully utilize shared radio frequency spectrum band resources within a maximum channel occupancy time (MCOT). A base station may activate or deactivate AUL transmissions through downlink control information (DCI) transmitted to the UE. A UE and base station may exchange various other control information to provide relatively efficient autonomous uplink transmissions and use of the shared radio frequency spectrum band resources.
| |
| | | | |
| | ===TECHNIQUES FOR SENDING A COLLISION INDICATION VIA A PHYSICAL SIDELINK FEEDBACK CHANNEL ([[US Patent Application 17727195. TECHNIQUES FOR SENDING A COLLISION INDICATION VIA A PHYSICAL SIDELINK FEEDBACK CHANNEL simplified abstract|17727195]])=== | | ===TECHNIQUES FOR SENDING A COLLISION INDICATION VIA A PHYSICAL SIDELINK FEEDBACK CHANNEL ([[US Patent Application 17727195. TECHNIQUES FOR SENDING A COLLISION INDICATION VIA A PHYSICAL SIDELINK FEEDBACK CHANNEL simplified abstract|17727195]])=== |
| Line 736: |
Line 560: |
| | Tien Viet Nguyen | | Tien Viet Nguyen |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It explains that user equipments (UEs) can send sidelink control information (SCI) messages to reserve resources for future sidelink transmissions. However, collisions in the reserved resource can occur, and this abstract proposes a feedback channel resource to indicate these collisions. The feedback channel resource is determined based on the time or frequency domain mapping between the sidelink feedback channel and the SCI messages. UEs can then transmit collision indications in the feedback channel resource, allowing UEs that sent the SCI messages to monitor for collisions in the reserved resource.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. User equipments (UEs) may transmit sidelink control information (SCI) messages indicating reservations for upcoming sidelink transmissions in the same reserved resource. One of the UEs or another UE may detect a collision in the reserved resource based on the SCI messages. A feedback channel resource for indicating the collision may be calculated based on a time domain parameter of a resource mapping between time domain resources of the sidelink feedback channel and time domain resources of the reserved resource or a frequency domain parameter of a resource mapping between frequency domain resources of the sidelink feedback channel and frequency domain resources of the SCI message. A UE may transmit a collision indication in the calculated feedback channel resource. The UEs that transmitted the SCI messages may monitor the calculated feedback channel resource for a collision indication for the reserved resource.
| |
| | | | |
| | ===CONFIGURED GRANT ENHANCEMENTS FOR EXTENDED REALITY UPLINK TRAFFIC ([[US Patent Application 18304165. CONFIGURED GRANT ENHANCEMENTS FOR EXTENDED REALITY UPLINK TRAFFIC simplified abstract|18304165]])=== | | ===CONFIGURED GRANT ENHANCEMENTS FOR EXTENDED REALITY UPLINK TRAFFIC ([[US Patent Application 18304165. CONFIGURED GRANT ENHANCEMENTS FOR EXTENDED REALITY UPLINK TRAFFIC simplified abstract|18304165]])=== |
| Line 750: |
Line 568: |
| | Yuchul Kim | | Yuchul Kim |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It introduces the concept of a configured grant (CG)-specific retransmission timer configuration, which is based on the type of traffic being communicated. The abstract explains that a network entity can indicate a CG for uplink transmissions and specify a retransmission timer specific to that CG. The user equipment (UE) can then transmit data messages according to the CG and monitor a downlink control channel for control information indicating a retransmission request within a specific time period based on the retransmission timer value. Additionally, the abstract mentions a downlink-to-uplink configuration dependency, where the uplink periodicity of a CG is determined based on the downlink periodicity.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. In some systems, a user equipment (UE) and a network entity may support a configured grant (CG)-specific retransmission timer configuration based on a traffic type to be communicated using a given CG. For example, the network entity may indicate a CG for uplink transmissions and may indicate a retransmission timer that is specific to the CG. As such, the UE may transmit a data message in accordance with the CG and may select a time period during which to monitor a downlink control channel for control information indicating a retransmission request for the data message in accordance with a value of the retransmission timer. Additionally, or alternatively, the UE and the network entity may support a downlink-to-uplink configuration dependency for determining an uplink periodicity of a CG based on a downlink periodicity.
| |
| | | | |
| | ===SYSTEMS AND TECHNIQUES FOR UPLINK TRANSMISSION TIMING WITH SCHEDULING OFFSETS ([[US Patent Application 18306133. SYSTEMS AND TECHNIQUES FOR UPLINK TRANSMISSION TIMING WITH SCHEDULING OFFSETS simplified abstract|18306133]])=== | | ===SYSTEMS AND TECHNIQUES FOR UPLINK TRANSMISSION TIMING WITH SCHEDULING OFFSETS ([[US Patent Application 18306133. SYSTEMS AND TECHNIQUES FOR UPLINK TRANSMISSION TIMING WITH SCHEDULING OFFSETS simplified abstract|18306133]])=== |
| Line 764: |
Line 576: |
| | Liangping MA | | Liangping MA |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a system for wireless communications. It explains that a device, such as a user equipment (UE), can receive a transmission from a network entity in a specific time slot. The device can also receive an update to the scheduling offset, which is the delay in communication between the device and the network entity. The update provides a new scheduling offset. The device then determines the selected scheduling offset, which can be either the original offset or the updated offset. The device uses this selected offset to transmit an uplink transmission in a different time slot. The specific time slot for the uplink transmission is determined based on the original time slot and the selected scheduling offset.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Systems and techniques are provided for wireless communications. For example, an apparatus (e.g., a user equipment (UE)) may receive a downlink transmission in a first downlink time slot and receiving an update to a scheduling offset associated with a propagation time delay of communications between the apparatus and a network entity. The update indicates an updated scheduling offset. The apparatus may determine a selected scheduling offset as one of the scheduling offset or the updated scheduling offset. The apparatus may transmit, using a second uplink time slot, an uplink transmission associated with the downlink transmission. The second uplink time slot may be determined based on a first uplink time slot and the selected scheduling offset.
| |
| | | | |
| | ===SCHEDULING OF AN UPLINK TRANSMISSION OF MULTIPLE TRANSPORT BLOCKS ([[US Patent Application 18306159. SCHEDULING OF AN UPLINK TRANSMISSION OF MULTIPLE TRANSPORT BLOCKS simplified abstract|18306159]])=== | | ===SCHEDULING OF AN UPLINK TRANSMISSION OF MULTIPLE TRANSPORT BLOCKS ([[US Patent Application 18306159. SCHEDULING OF AN UPLINK TRANSMISSION OF MULTIPLE TRANSPORT BLOCKS simplified abstract|18306159]])=== |
| Line 778: |
Line 584: |
| | Yi HUANG | | Yi HUANG |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device (UE) receives instructions called downlink control information (DCI). This DCI includes information about multiple data blocks that the UE needs to transmit in an uplink transmission. The UE follows these instructions and transmits the specified data blocks accordingly. The abstract mentions that there are other aspects of this communication system that are further described.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive downlink control information (DCI) that includes an uplink grant indicating information relating to multiple transport blocks for an uplink transmission, the information indicating which of the multiple transport blocks is to be transmitted. The UE may transmit one or more of the multiple transport blocks in accordance with the DCI. Numerous other aspects are described.
| |
| | | | |
| | ===TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION WITH DOWNLINK CONTROL INFORMATION FOR MULTI-CELL SCHEDULING ([[US Patent Application 17660174. TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION WITH DOWNLINK CONTROL INFORMATION FOR MULTI-CELL SCHEDULING simplified abstract|17660174]])=== | | ===TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION WITH DOWNLINK CONTROL INFORMATION FOR MULTI-CELL SCHEDULING ([[US Patent Application 17660174. TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION WITH DOWNLINK CONTROL INFORMATION FOR MULTI-CELL SCHEDULING simplified abstract|17660174]])=== |
| Line 792: |
Line 592: |
| | Kazuki TAKEDA | | Kazuki TAKEDA |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user equipment (UE) receives control information associated with scheduling on a set of cells. The UE decodes this information to identify the scheduling or downlink feedback information. The decoding process involves checking cyclic redundancy checks (CRC) associated with specific identifiers. The abstract mentions that there are numerous other aspects described in the disclosure.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive downlink control information (DCI) associated with a DCI format for shared channel scheduling on a set of cells, wherein the DCI is associated with a cell radio network temporary identifier (C-RNTI) and a configured scheduling radio network temporary identifier (CS-RNTI). The UE may decode the DCI to identify a scheduling on the set of cells or to identify downlink feedback information (DFI) based at least in part on a determination of whether the C-RNTI or the CS-RNTI satisfies a cyclic redundancy check (CRC). Numerous other aspects are described.
| |
| | | | |
| | ===FREQUENCY-DOMAIN RESOURCE ALLOCATION FOR MULTI-CELL SCHEDULING ([[US Patent Application 17726375. FREQUENCY-DOMAIN RESOURCE ALLOCATION FOR MULTI-CELL SCHEDULING simplified abstract|17726375]])=== | | ===FREQUENCY-DOMAIN RESOURCE ALLOCATION FOR MULTI-CELL SCHEDULING ([[US Patent Application 17726375. FREQUENCY-DOMAIN RESOURCE ALLOCATION FOR MULTI-CELL SCHEDULING simplified abstract|17726375]])=== |
| Line 806: |
Line 600: |
| | Kazuki Takeda | | Kazuki Takeda |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive a control message that schedules downlink transmissions over multiple carriers. The control message includes information about how frequency resources are allocated for different carriers. The UE can then receive the downlink transmissions based on this frequency allocation information.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a control message scheduling multi-cell downlink transmissions over a set of carriers, at least two carriers in the set of carriers being associated with different downlink transmissions of the multi-cell downlink transmissions, the control message comprising frequency domain resource allocation information for a set of resource block groups for the at least two carriers in the set of carriers for the multi-cell downlink transmissions. The UE may receive the multi-cell downlink transmissions according to the frequency domain resource allocation information.
| |
| | | | |
| | ===TIME DIVISION DUPLEX (TDD) SLOT FORMAT CONFIGURATION INDICATION FOR SIDELINK COMMUNICATIONS ([[US Patent Application 18137316. TIME DIVISION DUPLEX (TDD) SLOT FORMAT CONFIGURATION INDICATION FOR SIDELINK COMMUNICATIONS simplified abstract|18137316]])=== | | ===TIME DIVISION DUPLEX (TDD) SLOT FORMAT CONFIGURATION INDICATION FOR SIDELINK COMMUNICATIONS ([[US Patent Application 18137316. TIME DIVISION DUPLEX (TDD) SLOT FORMAT CONFIGURATION INDICATION FOR SIDELINK COMMUNICATIONS simplified abstract|18137316]])=== |
| Line 820: |
Line 608: |
| | Shuanshuan Wu | | Shuanshuan Wu |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a wireless communication system and method that focuses on sidelink communications in a Time-Division Duplexing (TDD) system. The system involves a first user equipment (UE) receiving a TDD configuration from a base station (BS). Based on this configuration, the first UE selects a specific TDD configuration from a set of pre-configured options. The first UE then transmits this selected TDD configuration to a second UE. Using this configuration, the first and second UEs can engage in sidelink communication. The abstract also mentions that there are other features included in this system, but they are not further explained.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Wireless communications systems and methods related to sidelink communications in a TDD system are provided. A first user equipment (UE) may receive from a base station (BS), a time-division-duplexing (TDD) configuration. The first UE may select a first TDD configuration from a set of configured TDD configurations based on the TDD configuration. Additionally, the first UE may transmit to a second UE, an indication of the first TDD configuration. The first and the second UEs may communicate a sidelink communication based on the first TDD configuration. Other features are also claimed and described.
| |
| | | | |
| | ===TRANSPORT BLOCK TRANSMISSION OVER MULTIPLE TIME SLOTS ([[US Patent Application 17727398. TRANSPORT BLOCK TRANSMISSION OVER MULTIPLE TIME SLOTS simplified abstract|17727398]])=== | | ===TRANSPORT BLOCK TRANSMISSION OVER MULTIPLE TIME SLOTS ([[US Patent Application 17727398. TRANSPORT BLOCK TRANSMISSION OVER MULTIPLE TIME SLOTS simplified abstract|17727398]])=== |
| Line 834: |
Line 616: |
| | Gokul Sridharan | | Gokul Sridharan |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. The device receives a resource allocation for transmitting a transport block (TB) over a set of time slots. The TB contains a set of coded bits. The device can determine the starting indexes of subsets of the coded bits, where each subset is for transmission during a specific subset of time slots. Alternatively, the device can receive a configured grant for transmitting the TB over the set of time slots. Additionally, the device can adjust the size of the TB based on a first value, which is unrelated to the second value representing the number of time slots. Finally, the device transmits the TB over the set of time slots using one or more of these methods.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A device may receive a resource allocation for transmitting a transport block (TB) over a set of time slots. The TB may include a set of coded bits. In some aspects, the device may determine starting indexes of subsets of the coded bits, each subset of the coded bits may be for transmission during a respective subset of time slots. In some other aspects, the device may receive a configured grant for a transmission of the TB over the set of time slots. In other aspects, the device may scale a size of the TB based on a first value independent of a second value associated with a number of time slots associated with the set of time slots. The device may transmit the TB over the set of time slots based on one or more of the example aspects.
| |
| | | | |
| | ===CARRIER INDICATOR FIELD MAPPING ([[US Patent Application 18148241. CARRIER INDICATOR FIELD MAPPING simplified abstract|18148241]])=== | | ===CARRIER INDICATOR FIELD MAPPING ([[US Patent Application 18148241. CARRIER INDICATOR FIELD MAPPING simplified abstract|18148241]])=== |
| Line 848: |
Line 624: |
| | Kazuki TAKEDA | | Kazuki TAKEDA |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user equipment (UE) receives instructions on which cells to communicate with. This is done through a carrier indicator field (CIF) value that identifies the cells. The UE then uses this information to schedule resources and communicate with the specified cells. The abstract mentions that there are other aspects of the system that are described as well.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive downlink control information including a carrier indicator field (CIF) value identifying one or more cells on which the downlink control information is configured to schedule resources. The UE may communicate on the one or more cells based at least in part on a mapping between the CIF value and the one or more cells. Numerous other aspects are described.
| |
| | | | |
| | ===TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION USING DOWNLINK CONTROL INFORMATION FORMAT 0_2 ([[US Patent Application 18005053. TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION USING DOWNLINK CONTROL INFORMATION FORMAT 0_2 simplified abstract|18005053]])=== | | ===TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION USING DOWNLINK CONTROL INFORMATION FORMAT 0_2 ([[US Patent Application 18005053. TRANSMISSION OF DOWNLINK FEEDBACK INFORMATION USING DOWNLINK CONTROL INFORMATION FORMAT 0_2 simplified abstract|18005053]])=== |
| Line 862: |
Line 632: |
| | Shaozhen GUO | | Shaozhen GUO |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a technology that allows for the transmission of feedback information from a base station to a user equipment (UE) using a specific format called "downlink control information format 0_2". The UE can receive this information in two different formats, with the second format being shorter than the first. The UE can determine if the received information is feedback information based on certain indications in the format.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Apparatus, methods, and computer-readable media for transmission of downlink feedback information using downlink control information format 0_2 are disclosed herein. A user equipment (UE) may receive, from a base station on a first subband, a downlink control information (DCI) having a first predetermined DCI format or a second predetermined DCI format, in which the second predetermined DCI format has a length smaller than the first predetermined DCI format. The UE also may determine that the DCI indicates a downlink feedback information (DFI) based on one or more of an indication in the DCI or a first predetermined scrambling code associated with the DCI, when the DCI is received with the second predetermined DCI format
| |
| | | | |
| | ===SWITCHING FROM AN ACTIVE BANDWIDTH PART TO A DEFAULT BANDWIDTH PART ([[US Patent Application 17660202. SWITCHING FROM AN ACTIVE BANDWIDTH PART TO A DEFAULT BANDWIDTH PART simplified abstract|17660202]])=== | | ===SWITCHING FROM AN ACTIVE BANDWIDTH PART TO A DEFAULT BANDWIDTH PART ([[US Patent Application 17660202. SWITCHING FROM AN ACTIVE BANDWIDTH PART TO A DEFAULT BANDWIDTH PART simplified abstract|17660202]])=== |
| Line 876: |
Line 640: |
| | Jing LEI | | Jing LEI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user equipment (UE) can receive a default bandwidth part (BWP) configuration. The UE can then switch from its current active BWP to the default BWP and perform wireless communication tasks based on the default BWP. The abstract mentions that there are other aspects of the disclosure that are described as well.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a default bandwidth part (BWP) configuration associated with at least one default BWP. The UE may switch from an active BWP to a default BWP of the at least one default BWP. The UE may perform a wireless communication task based at least in part on the default BWP. Numerous other aspects are described.
| |
| | | | |
| | ===MULTICAST/BROADCAST SERVICE ALERT ([[US Patent Application 18044779. MULTICAST/BROADCAST SERVICE ALERT simplified abstract|18044779]])=== | | ===MULTICAST/BROADCAST SERVICE ALERT ([[US Patent Application 18044779. MULTICAST/BROADCAST SERVICE ALERT simplified abstract|18044779]])=== |
| Line 890: |
Line 648: |
| | Prasad Reddy KADIRI | | Prasad Reddy KADIRI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes methods, systems, and devices for wireless communications that support multicast services. A communications device, such as a UE (User Equipment), can transition from an inactive state to a connected state to receive multicast services and provide feedback to the network. The wireless network can use different techniques to trigger the UE to transition to the connected state, such as sending a trigger message indicating the availability of multicast services. The UE then decides whether to transition based on this trigger message.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. Some wireless communications systems may support multicast communications, which may relate to a multicast service (for example, a multimedia broadcast multicast service (MBMS)). A communications device such as a UE may transition from an inactive or idle state to a connected state to receive multicast services and provide feedback to the network. A wireless network may implement different techniques to trigger the UE to transition from the idle or inactive state into the RRC connected state to receive multicast services. For example, the UE may receive a trigger message that indicates that the one or more multicast services are available for use by the UE, and the UE may determine whether to transition to an RRC connected state to receive the multicast services based on the trigger message.
| |
| | | | |
| | ===UPLINK SKIPPING AND UPLINK CONTROL INFORMATION MULTIPLEXING ([[US Patent Application 18182042. UPLINK SKIPPING AND UPLINK CONTROL INFORMATION MULTIPLEXING simplified abstract|18182042]])=== | | ===UPLINK SKIPPING AND UPLINK CONTROL INFORMATION MULTIPLEXING ([[US Patent Application 18182042. UPLINK SKIPPING AND UPLINK CONTROL INFORMATION MULTIPLEXING simplified abstract|18182042]])=== |
| Line 904: |
Line 656: |
| | Olufunmilola Omolade AWONIYI-OTERI | | Olufunmilola Omolade AWONIYI-OTERI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device (UE) receives information about a group of resources for sending data. The UE then sends a subset of the data, including control information, while excluding any data that is not available for transmission. The abstract mentions that there are other aspects of the system that are described in more detail.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive information identifying a set of uplink resources for a set of uplink transmissions. The UE may transmit a subset of the set of uplink transmissions, wherein the subset of the set of uplink transmissions includes uplink control information multiplexed from a remainder of the set of uplink transmissions corresponding to one or more instances in which data is not available for transmission. Numerous other aspects are described.
| |
| | | | |
| | ===OPTIONS FOR INDICATING RECEPTION QUASI CO-LOCATION (QCL) INFORMATION ([[US Patent Application 17660049. OPTIONS FOR INDICATING RECEPTION QUASI CO-LOCATION (QCL) INFORMATION simplified abstract|17660049]])=== | | ===OPTIONS FOR INDICATING RECEPTION QUASI CO-LOCATION (QCL) INFORMATION ([[US Patent Application 17660049. OPTIONS FOR INDICATING RECEPTION QUASI CO-LOCATION (QCL) INFORMATION simplified abstract|17660049]])=== |
| Line 918: |
Line 664: |
| | Qian ZHANG | | Qian ZHANG |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a method for wireless communication between two user equipment (UE) devices. The first UE receives a configuration from a network entity, which specifies certain resources for measuring cross link interference (CLI) between the first UE and a second UE. The first UE then determines the reception quasi co-location (QCL) information of a transmission configuration indicator (TCI) state for these measurement resources. Using this information, the first UE measures the CLI on the specified resources and reports the results back to the network entity.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques for wireless communication by a first user equipment (UE), comprising receiving, from a network entity, a configuration of one or more measurement resources for measuring cross link interference (CLI) between the first UE and a second UE, determining reception quasi co-location (QCL) information of a transmission configuration indicator (TCI) state for the measurement resources, measuring CLI on the measurement resources using the reception QCL information, and reporting the CLI to the network entity.
| |
| | | | |
| | ===PRIORITIZATION BETWEEN FEEDBACK AND COLLISION INDICATIONS ([[US Patent Application 17727661. PRIORITIZATION BETWEEN FEEDBACK AND COLLISION INDICATIONS simplified abstract|17727661]])=== | | ===PRIORITIZATION BETWEEN FEEDBACK AND COLLISION INDICATIONS ([[US Patent Application 17727661. PRIORITIZATION BETWEEN FEEDBACK AND COLLISION INDICATIONS simplified abstract|17727661]])=== |
| Line 932: |
Line 672: |
| | Tien Viet Nguyen | | Tien Viet Nguyen |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes methods, systems, and devices for wireless communications. It explains how a first user equipment (UE) can transmit feedback indications and collision indications to a second UE. The feedback indication informs whether sidelink data was successfully received and decoded by the first UE, while the collision indication indicates an expected conflict between the second UE and a third UE.
| |
| − |
| |
| − | The first UE can generate a feedback message that includes both feedback indications and collision indications. It can prioritize the feedback message based on the feedback indications, collision indications, or both. Additionally, the first UE can avoid including collision indications in the same feedback message as feedback indications.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Methods, systems, and devices for wireless communications are described. A first user equipment (UE) may identify feedback indications and collision indications to transmit to a second UE. A feedback indication may indicate whether sidelink data was received and decoded successfully by the first UE, and a collision indication may indicate an expected conflict between the second UE and a third UE. In one aspect, the first UE may generate a feedback message including both feedback indications and collision indications, and the first UE may prioritize the feedback message based on the feedback indications, the collision indications, or both. In another aspect, the first UE may avoid including collision indications in a same feedback message as feedback indications.
| |
| | | | |
| | ===RESOURCE ALLOCATION FOR CHANNEL OCCUPANCY TIME SHARING IN SIDELINK COMMUNICATION ([[US Patent Application 17660482. RESOURCE ALLOCATION FOR CHANNEL OCCUPANCY TIME SHARING IN SIDELINK COMMUNICATION simplified abstract|17660482]])=== | | ===RESOURCE ALLOCATION FOR CHANNEL OCCUPANCY TIME SHARING IN SIDELINK COMMUNICATION ([[US Patent Application 17660482. RESOURCE ALLOCATION FOR CHANNEL OCCUPANCY TIME SHARING IN SIDELINK COMMUNICATION simplified abstract|17660482]])=== |
| Line 948: |
Line 680: |
| | Qing LI | | Qing LI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | This abstract describes a wireless communication system that allows user equipment (UE) to share channel occupancy time (COT) on sidelink communication. The method involves a first UE transmitting an indication of COT sharing to a network unit. The first UE then receives a COT indicator from the network unit, which instructs the first UE to either initiate COT on sidelink communication or share COT on sidelink communication based on the initial indication. Finally, the first UE transmits a communication to a second UE during the COT on sidelink communication.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Wireless communications systems, apparatuses, and methods are provided. A method of wireless communication performed by a first user equipment (UE) may include transmitting, to a network unit, an indication associated with channel occupancy time (COT) sharing on sidelink communication, receiving, from the network unit, a COT indicator, wherein the COT indicator indicates to the first UE to initiate a COT on sidelink communication based on the indication associated with the COT sharing or the COT indicator indicates to the first UE to share the COT on sidelink communication based on the indication associated with the COT sharing on sidelink communication, and transmitting, to a second UE, a communication during the COT on sidelink communication.
| |
| | | | |
| | ===PACKET DETECTION ACROSS SUB-BANDS ([[US Patent Application 17728723. PACKET DETECTION ACROSS SUB-BANDS simplified abstract|17728723]])=== | | ===PACKET DETECTION ACROSS SUB-BANDS ([[US Patent Application 17728723. PACKET DETECTION ACROSS SUB-BANDS simplified abstract|17728723]])=== |
| Line 962: |
Line 688: |
| | Shwetank Kishorkumar MISTRY | | Shwetank Kishorkumar MISTRY |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for transmitting and receiving a training field signal over multiple radio frequency sub-bands. The first apparatus can use two or more of these sub-bands to transmit the training field signal, which may be repeated over multiple sub-bands. The second apparatus can then combine the training field signal received from the multiple sub-bands.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Aspects relate to outputting a training field signal and/or obtaining a training field signal over multiple radio frequency (RF) sub-bands. For example, a carrier bandwidth used by a first apparatus to transmit packets may include several RF sub-bands. The first apparatus may use two or more of these RF sub-bands to transmit a training field signal. In some examples, the first apparatus may repeat the same training field signal over multiple RF sub-bands. In some examples, the second apparatus may combine the training field signal sent over the multiple RF sub-bands.
| |
| | | | |
| | ===DESIGN CONSIDERATIONS FOR A RANDOM ACCESS RESPONSE FOR A TWO-STEP RANDOM ACCESS PROCEDURE ([[US Patent Application 18306307. DESIGN CONSIDERATIONS FOR A RANDOM ACCESS RESPONSE FOR A TWO-STEP RANDOM ACCESS PROCEDURE simplified abstract|18306307]])=== | | ===DESIGN CONSIDERATIONS FOR A RANDOM ACCESS RESPONSE FOR A TWO-STEP RANDOM ACCESS PROCEDURE ([[US Patent Application 18306307. DESIGN CONSIDERATIONS FOR A RANDOM ACCESS RESPONSE FOR A TWO-STEP RANDOM ACCESS PROCEDURE simplified abstract|18306307]])=== |
| Line 976: |
Line 696: |
| | Jing LEI | | Jing LEI |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a wireless communication system where a user device (UE) sends a random access message to a base station. The base station detects the preamble of the message and tries to decode the payload. Depending on the outcome, the base station sends a random access response to the UE. This response includes an uplink group grant and an indication of the type of grant for multiple UEs that transmitted their preamble at the same time and frequency. The UEs monitor the grant and transmit data on shared time frequency resources accordingly. The abstract mentions that there are other aspects provided, but does not provide specific details.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Various aspects of the present disclosure generally relate to wireless communication. A user equipment (UE) may transmit a random access message including a preamble and a payload. A base station may detect the preamble of the random access message. The base station, and may fail or succeed to decode the payload of the random access message. The base station may transmit, based at least in part on detecting the preamble and the different decoding outcome for the payload, a random access response. The random access response may include an uplink group grant and an indication for a type of the uplink group grant for a plurality of UEs whose preamble transmission share the same time and frequency occasion. UEs may monitor the type and the contents of the uplink group grant and transmit data subsequently on a set of shared time frequency resources. Numerous other aspects are provided.
| |
| | | | |
| | ===WAVEFORM SUPPORT CAPABILITY SIGNALING DURING INITIAL ACCESS ([[US Patent Application 17660368. WAVEFORM SUPPORT CAPABILITY SIGNALING DURING INITIAL ACCESS simplified abstract|17660368]])=== | | ===WAVEFORM SUPPORT CAPABILITY SIGNALING DURING INITIAL ACCESS ([[US Patent Application 17660368. WAVEFORM SUPPORT CAPABILITY SIGNALING DURING INITIAL ACCESS simplified abstract|17660368]])=== |
| Line 990: |
Line 704: |
| | Ahmed ELSHAFIE | | Ahmed ELSHAFIE |
| | | | |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for wireless communication by a user equipment (UE). The UE sends messages to a network entity, indicating the types of signals it can receive. The UE then receives transmissions from the network entity using the supported signal types.
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Certain aspects of the present disclosure provide techniques for wireless communications by a user equipment (UE). The UE transmits, to a network entity, via one or more random access channel (RACH) messages, information indicating one or more downlink waveforms supported by the UE. The UE receives, from the network entity, one or more downlink transmissions using the one or more downlink waveforms supported by the UE.
| |
| | | | |
| | ===GATE SPACER STRUCTURE ([[US Patent Application 17660758. GATE SPACER STRUCTURE simplified abstract|17660758]])=== | | ===GATE SPACER STRUCTURE ([[US Patent Application 17660758. GATE SPACER STRUCTURE simplified abstract|17660758]])=== |
| Line 1,003: |
Line 711: |
| | | | |
| | Fadoua CHAFIK | | Fadoua CHAFIK |
| − |
| |
| − |
| |
| − | '''Brief explanation'''
| |
| − | The abstract describes a method for creating a semiconductor device that includes different types of transistors. These transistors have different gate spacer structures, with the third gate spacer structure being thinner than the first gate spacer structure. The semiconductor device includes static random-access memory (SRAM) transistors, logic nominal transistors, and logic gate-biased transistors, all of which have the same contacted poly pitch (CPP).
| |
| − |
| |
| − | '''Abstract'''
| |
| − | Disclosed are apparatuses and techniques for fabricating an apparatus including a semiconductor device. The semiconductor device may include one or more static random-access memory (SRAM) transistors, each including a first gate spacer structure; one or more logic nominal transistors, each including a second gate spacer structure; and one or more logic gate-biased transistors, each including a third gate spacer structure, where the third gate spacer structure is thinner than the first gate spacer structure and where the one or more SRAM transistors, the one or more logic nominal transistors, and the one or more logic gate-biased transistors each have a same contacted poly pitch (CPP).
| |
