Difference between revisions of "QUALCOMM Incorporated patent applications published on October 19th, 2023"

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Katheryn Victoria RAMP
 
Katheryn Victoria RAMP
  
 
'''Brief explanation'''
 
This abstract describes systems and methods that use user equipment, such as a device or app, to ensure that a user receives scheduled notifications. The system can determine the current exercise being performed by the user and the appropriate breathing pattern for that exercise. It then monitors the user's breathing pattern using a respiratory sensor and compares it to the target breathing pattern. Finally, the system provides information to the user about any differences between their actual breathing pattern and the target pattern.
 
 
'''Abstract'''
 
Systems and methods executed by a processor of user equipment for ensuring a user receives scheduled notifications are disclosed. Various embodiments may include determining a current exercise performed by the user, determining a target breathing pattern appropriate for the current exercise performed by the user, monitoring a current breathing pattern of the user while performing the current exercise based on inputs from a respiratory sensor, determining differences between the target breathing pattern appropriate for the current exercise performed by the user and the current breathing pattern of the user, and providing information to the user regarding determined differences between the target breathing pattern appropriate for the current exercise performed by the user and the current breathing pattern of the user.
 
  
 
===SYSTEMS AND METHODS OF COLLABORATIVE ENHANCED SENSING ([[US Patent Application 17723393. SYSTEMS AND METHODS OF COLLABORATIVE ENHANCED SENSING simplified abstract|17723393]])===
 
===SYSTEMS AND METHODS OF COLLABORATIVE ENHANCED SENSING ([[US Patent Application 17723393. SYSTEMS AND METHODS OF COLLABORATIVE ENHANCED SENSING simplified abstract|17723393]])===
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Mohammed Ataur Rahman SHUMAN
 
Mohammed Ataur Rahman SHUMAN
  
 
'''Brief explanation'''
 
This abstract describes a system that uses multiple sensors to gather data about an environment. The system then selects a subset of this data based on the context of a vehicle in the environment, such as its position, direction, speed, and planned movement. The system combines and processes this subset of data to create an enhanced representation of the environment specifically for the vehicle. This enhanced representation can be displayed to the vehicle's occupants.
 
 
'''Abstract'''
 
Collaborative enhanced sensing systems and techniques are described. A system obtains sensor data of an environment from one or more sensors. The sensor data includes different representations of one or more portions of the environment from multiple perspectives. The system identifies a subset of the different representations of the one or more portions of the environment based on context corresponding to a vehicle in the environment. The context can include, for example, a position, a direction of travel, a speed, and/or a planned movement of the vehicle. The system causes an enhanced representation of the environment for the vehicle to be generated at least in part based on consolidating and/or fusing together the subset of the different representations. The system can cause an indication of the enhanced representation of the environment to be output at the vehicle.
 
  
 
===SIDELINK-AIDED HYBRID NETWORK POSITIONING ([[US Patent Application 18030361. SIDELINK-AIDED HYBRID NETWORK POSITIONING simplified abstract|18030361]])===
 
===SIDELINK-AIDED HYBRID NETWORK POSITIONING ([[US Patent Application 18030361. SIDELINK-AIDED HYBRID NETWORK POSITIONING simplified abstract|18030361]])===
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Weimin DUAN
 
Weimin DUAN
  
 
'''Brief explanation'''
 
The abstract discusses techniques for accurately determining the position of a light user equipment (UE) using only one base station. This is achieved by utilizing communication with a premium UE that has a known location relative to the base station. By measuring wireless reference signals from both the light UE and premium UE, as well as a reference signal from the light UE to the premium UE, the position of the light UE can be determined using geometric calculations. This determination can be performed by the light UE, premium UE, or a location server, depending on the desired functionality.
 
 
'''Abstract'''
 
Techniques for a high-accuracy determination the position of a light user equipment (UE) using a single base station are presented. This is accomplished by leveraging communications with a premium UE having a known location relative to the base station. Wireless reference signals measured by the light UE and premium UE, along with a reference signal from the light UE to the premium UE, can be used to determine the position of the light UE geometrically. The determination can be made by the light UE, premium UE, or a location server, depending on desired functionality.
 
  
 
===HANDLING POSITIONING SESSIONS DURING CELL TIMING SOURCE OUTAGES ([[US Patent Application 18340973. HANDLING POSITIONING SESSIONS DURING CELL TIMING SOURCE OUTAGES simplified abstract|18340973]])===
 
===HANDLING POSITIONING SESSIONS DURING CELL TIMING SOURCE OUTAGES ([[US Patent Application 18340973. HANDLING POSITIONING SESSIONS DURING CELL TIMING SOURCE OUTAGES simplified abstract|18340973]])===
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Sony AKKARAKARAN
 
Sony AKKARAKARAN
  
 
'''Brief explanation'''
 
The abstract describes techniques for managing positioning sessions when there is a disruption in the timing source. It suggests a method where a station notifies about the timing source outage, and based on this information, the positioning method is determined. The determined positioning method is then communicated to network entities.
 
 
'''Abstract'''
 
Techniques are provided for handling positioning sessions in response to a timing source outage. An example method for configuring a positioning method based on a timing source outage includes receiving an indication of the timing source outage from a station, determining the positioning method based at least in part on the indication of the timing source outage, and sending an indication of the positioning method to one or more network entities.
 
  
 
===LOCATION AS A SERVICE ([[US Patent Application 18296549. LOCATION AS A SERVICE simplified abstract|18296549]])===
 
===LOCATION AS A SERVICE ([[US Patent Application 18296549. LOCATION AS A SERVICE simplified abstract|18296549]])===
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Xiaoxin ZHANG
 
Xiaoxin ZHANG
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a network node transmits the MAC address of an access point to a group of access points in a network. The network node then receives single-sided round-trip-time (RTT) data from each access point in the group, which is associated with a user device connected to the access point. Based on this data, the network node determines the location of the user device. Finally, the network node transmits the location information back to the access point.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a network node may transmit an indication of a media access control (MAC) address associated with an access point to a group of access points included in a network. The network node may receive single-sided round-trip-time (RTT) data associated with a user device associated with the access point, wherein the single-sided RTT data is received from each of the group of access points based at least in part on transmitting the indication of the MAC address to the group of access points. The network node may determine a location of the user device based at least in part on the single-sided RTT data. The network node may transmit an indication of the location of the user device to the access point. Numerous other aspects are described.
 
  
 
===Channel Gating For Conditional Computation ([[US Patent Application 18337462. Channel Gating For Conditional Computation simplified abstract|18337462]])===
 
===Channel Gating For Conditional Computation ([[US Patent Application 18337462. Channel Gating For Conditional Computation simplified abstract|18337462]])===
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Babak EHTESHAMI BEJNORDI
 
Babak EHTESHAMI BEJNORDI
  
 
'''Brief explanation'''
 
This abstract describes a method for intelligently activating filters within a layer of a neural network. The method involves receiving input data specific to the layer, generating statistics based on this data, and assigning a relevance score to each filter in the layer. The relevance score indicates how relevant each filter is to the input data. Based on these relevance scores, the method determines the activation status of each filter and applies the input data to the activated filters to generate an output activation for the layer.
 
 
'''Abstract'''
 
A computing device may be configured to intelligently activate gating within a current layer of a neural network that includes two or more filters. The computing device may receive a layer-specific input data that is specific to the current layer of the neural network, generate statistics based on the received layer-specific input data; and use the generated statistics to assign a relevance score to each of the two or more filters. Each assigned relevance score may indicate the relevance of the corresponding filter to the received layer-specific input data. The computing device may determine an activation status of each of the two or more filters in the current layer based on the identified relevance and apply the received layer-specific input data to the activated filters in the two or more filters to generate an output activation for the current layer of the neural network.
 
  
 
===INTELLIGENT MANAGEMENT OF APPLICATION LAYER RENDERING ([[US Patent Application 18042575. INTELLIGENT MANAGEMENT OF APPLICATION LAYER RENDERING simplified abstract|18042575]])===
 
===INTELLIGENT MANAGEMENT OF APPLICATION LAYER RENDERING ([[US Patent Application 18042575. INTELLIGENT MANAGEMENT OF APPLICATION LAYER RENDERING simplified abstract|18042575]])===
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Nan ZHANG
 
Nan ZHANG
  
 
'''Brief explanation'''
 
The abstract discusses the increasing popularity of high frames-per-second (FPS) displays in devices like smartphones and laptops. These displays require precise timing control for rendering and composing data. Traditionally, there is one sync signal for rendering and one for composing, both with the same frequency as the display hardware. However, as the display's FPS increases, some application layers may struggle to render quickly enough. To solve this problem, the proposal suggests using multiple sync signals with different frequencies and phases to control the rendering timings of different application layers. This approach aims to improve the user experience by effectively managing the rendering process.
 
 
'''Abstract'''
 
High frames-per-second (FPS) displays are becoming more ubiquitous in devices such as smartphones, laptops, etc. For displaying data on displays, render sync signal and compose sync signal control timings of rendering and composing. Conventionally, there is one render sync signal and one compose sync signal for a display, and both share the same frequency as the HW sync signal of the display hardware. As the FPS of the display becomes faster and faster, i.e., as HW sync signal frequency increases, some application layers may be unable to render fast enough to keep up with the increased frequency. To address this issue, it is proposed to provide multiple render sync signals of differing frequencies and phases, and different render sync signals may be used to control the timings of rendering of different application layers. Through such managing of the application layer rendering, a better user experience can be provided.
 
  
 
===MESSAGE BROADCASTING FOR VEHICLES ([[US Patent Application 18340294. MESSAGE BROADCASTING FOR VEHICLES simplified abstract|18340294]])===
 
===MESSAGE BROADCASTING FOR VEHICLES ([[US Patent Application 18340294. MESSAGE BROADCASTING FOR VEHICLES simplified abstract|18340294]])===
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Stephen Marc CHAVES
 
Stephen Marc CHAVES
  
 
'''Brief explanation'''
 
The abstract describes methods that allow a vehicle to communicate its intentions and motion plans to other vehicles nearby. It also mentions methods for utilizing the intentions and motion plans received from surrounding vehicles.
 
 
'''Abstract'''
 
Various aspects may include methods enabling a vehicle to broadcast intentions and/or motion plans to surrounding vehicles. Various aspects include methods for using intentions and/or motion plans received from one or more surrounding vehicles.
 
  
 
===DISPLAYING DIRECTIONAL VISUAL INDICATORS FROM A WEARABLE DEVICE FOR NAVIGATION ([[US Patent Application 18114615. DISPLAYING DIRECTIONAL VISUAL INDICATORS FROM A WEARABLE DEVICE FOR NAVIGATION simplified abstract|18114615]])===
 
===DISPLAYING DIRECTIONAL VISUAL INDICATORS FROM A WEARABLE DEVICE FOR NAVIGATION ([[US Patent Application 18114615. DISPLAYING DIRECTIONAL VISUAL INDICATORS FROM A WEARABLE DEVICE FOR NAVIGATION simplified abstract|18114615]])===
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Sai Krishna Vadali
 
Sai Krishna Vadali
  
 
'''Brief explanation'''
 
This disclosure describes a system for displaying visual indicators on a wearable device to assist with navigation. The wearable device can receive navigation signals and display directional visual indicators externally. These indicators can be in the form of lights or projections that show the direction of travel. If the direction changes, the device will display a new indicator to reflect the new direction.
 
 
'''Abstract'''
 
This disclosure provides systems, methods, and apparatus, including computer programs encoded on computer-readable media, for displaying directional visual indicators external to a wearable device for navigation. In some aspects, a wearable device may receive navigation signals while the wearable device is in a navigation mode. The navigation signals may indicate a direction of travel. The wearable device may display a first directional visual indicator corresponding to the direction of travel. The first directional visual indicator may be displayed external to the wearable device indicating the direction of travel is a first direction. The first directional visual indicator may be a directional light or a directional projection displayed external to the wearable device in the direction of travel. If the direction of travel changes from the first direction to a second direction, the wearable device may display a second directional visual indicator indicating the direction of travel is the second direction.
 
  
 
===DISPLAY PANEL FPS SWITCHING ([[US Patent Application 18025176. DISPLAY PANEL FPS SWITCHING simplified abstract|18025176]])===
 
===DISPLAY PANEL FPS SWITCHING ([[US Patent Application 18025176. DISPLAY PANEL FPS SWITCHING simplified abstract|18025176]])===
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Nan ZHANG
 
Nan ZHANG
  
 
'''Brief explanation'''
 
The present disclosure describes methods and devices for display processing. This includes an apparatus, such as a display processor, that can store pixel conversion factors for a display panel. The apparatus can determine whether to switch from a previous frame refresh rate to an updated frame refresh rate for the display panel. If a switch is determined, the apparatus can identify the pixel conversion factor associated with the updated frame refresh rate and refresh the display panel accordingly.
 
 
'''Abstract'''
 
The present disclosure relates to methods and devices for display processing including an apparatus, e.g., a display processor. In some aspects, the apparatus may store one or more pixel conversion factors for at least one display panel. The apparatus may also determine whether to switch from a previous frame refresh rate to an updated frame refresh rate at the at least one display panel. Additionally, the apparatus may identify, upon determining to switch from the previous frame refresh rate to the updated frame refresh rate, a pixel conversion factor of the one or more pixel conversion factors associated with the updated frame refresh rate. The apparatus may also refresh the at least one display panel based on the updated frame refresh rate associated the pixel conversion factor.
 
  
 
===INTEGRATED CIRCUITS (ICS) EMPLOYING MULTI-PATTERN METALLIZATION TO OPTIMIZE METAL INTERCONNECT SPACING FOR IMPROVED PERFORMANCE AND RELATED FABRICATION METHODS ([[US Patent Application 17659214. INTEGRATED CIRCUITS (ICS) EMPLOYING MULTI-PATTERN METALLIZATION TO OPTIMIZE METAL INTERCONNECT SPACING FOR IMPROVED PERFORMANCE AND RELATED FABRICATION METHODS simplified abstract|17659214]])===
 
===INTEGRATED CIRCUITS (ICS) EMPLOYING MULTI-PATTERN METALLIZATION TO OPTIMIZE METAL INTERCONNECT SPACING FOR IMPROVED PERFORMANCE AND RELATED FABRICATION METHODS ([[US Patent Application 17659214. INTEGRATED CIRCUITS (ICS) EMPLOYING MULTI-PATTERN METALLIZATION TO OPTIMIZE METAL INTERCONNECT SPACING FOR IMPROVED PERFORMANCE AND RELATED FABRICATION METHODS simplified abstract|17659214]])===
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Bed Raj Kandel
 
Bed Raj Kandel
  
 
'''Brief explanation'''
 
This abstract describes a new design for integrated circuits (ICs) that includes transistors formed in diffusion regions. The transistors have a source and a drain that extend in one direction, with a gate in between. To reduce resistance in the connections between the transistors and the metal lines, one of the metal lines (either the source or the drain) is extended further in that direction. This provides more space for the interconnection via, which reduces resistance without increasing capacitance between the metal lines. By increasing the landing area for the via, the resistance to the source and/or drain is reduced. This design also allows the via landing area to be shifted in the same direction, further reducing capacitance.
 
 
'''Abstract'''
 
An integrated circuit (IC) includes transistors formed in diffusion regions. In each transistor, a source and a drain extend in a first direction, and a gate is disposed on the diffusion region between the source and the drain. To reduce connection resistance through at least one of a source metal line and a drain metal line connected to the source and the drain of a transistor, one of the source metal line and the drain metal line extends farther than the other in the first direction to provide additional via landing area to support an interconnection via having reduced resistance without increasing side-to-side capacitance between the source and drain metal lines. Increasing the via landing area reduces connection resistance to the source and/or drain. Providing an extended source metal line and/or drain metal line allows a via landing area to be shifted in the first direction to reduce via capacitance.
 
  
 
===RESISTOR NETWORK WITH ADAPTIVE RESISTANCE FOR DIGITAL-TO-ANALOG CONVERTER (DAC) ([[US Patent Application 17659531. RESISTOR NETWORK WITH ADAPTIVE RESISTANCE FOR DIGITAL-TO-ANALOG CONVERTER (DAC) simplified abstract|17659531]])===
 
===RESISTOR NETWORK WITH ADAPTIVE RESISTANCE FOR DIGITAL-TO-ANALOG CONVERTER (DAC) ([[US Patent Application 17659531. RESISTOR NETWORK WITH ADAPTIVE RESISTANCE FOR DIGITAL-TO-ANALOG CONVERTER (DAC) simplified abstract|17659531]])===
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Nitz SAPUTRA
 
Nitz SAPUTRA
  
 
'''Brief explanation'''
 
The abstract describes methods and devices for adjusting the resistance of a resistor network in a digital-to-analog converter (DAC). The DAC includes multiple DAC cells, each containing a current source and a resistor network. The resistor network consists of several resistive elements and can be adjusted to vary its resistance. This allows the DAC to support a wide range of full-scale currents while maintaining a higher degeneration voltage and reducing noise and mismatch. Some DAC cells also include switches that can further adjust the resistance of the resistor network.
 
 
'''Abstract'''
 
Methods and apparatus for adaptively adjusting a resistance of a resistor network in a digital-to-analog converter (DAC), such as a current-steering DAC for a transmit chain. An example DAC generally includes a plurality of DAC cells. One or more of the DAC cells generally includes a current source and a resistor network. The resistor network includes a plurality of resistive elements, has an adjustable resistance, and is coupled between a power supply rail and the current source. In this manner, the DAC may support a wide range of full-scale currents, while maintaining a higher degeneration voltage and reduced noise and mismatch for a given headroom. For certain aspects, the one or more of the DAC cells further include a plurality of switches (e.g., implemented with PFETs) coupled to one or more of the resistive elements and configured to adjust the resistance of the resistor network.
 
  
 
===OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM ([[US Patent Application 17659468. OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM simplified abstract|17659468]])===
 
===OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM ([[US Patent Application 17659468. OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM simplified abstract|17659468]])===
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Lennart Karl-Axel MATHE
 
Lennart Karl-Axel MATHE
  
 
'''Brief explanation'''
 
The abstract describes a method for determining the timing of an analog-to-digital converter (ADC) output in a user equipment. The method involves switching the ADC between two modes: in the first mode, a system clock is routed to the ADC input, and the timing of the ADC output is determined based on a set of ADC samples. In the second mode, analog signals from a transceiver are routed to the ADC input, and another set of ADC samples is obtained based on these analog signals.
 
 
'''Abstract'''
 
According to embodiments, an example method for determining an analog-to-digital converter (ADC) output timing in a user equipment may include operating a switch in a first mode to route a system clock from an oscillator to an input of the ADC and determining a first ADC output timing based on a first set of ADC samples generated by the ADC. The method may also include operating the switch in a second mode to route analog signals from a transceiver of the user equipment to the input of the ADC and obtaining a second set of ADC samples generated by the ADC based on the analog signals.
 
  
 
===FREQUENCY PRE-COMPENSATION FOR HIGH-SPEED TRAIN SINGLE FREQUENCY NETWORKS ([[US Patent Application 18334446. FREQUENCY PRE-COMPENSATION FOR HIGH-SPEED TRAIN SINGLE FREQUENCY NETWORKS simplified abstract|18334446]])===
 
===FREQUENCY PRE-COMPENSATION FOR HIGH-SPEED TRAIN SINGLE FREQUENCY NETWORKS ([[US Patent Application 18334446. FREQUENCY PRE-COMPENSATION FOR HIGH-SPEED TRAIN SINGLE FREQUENCY NETWORKS simplified abstract|18334446]])===
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Kiran VENUGOPAL
 
Kiran VENUGOPAL
  
 
'''Brief explanation'''
 
This abstract discusses wireless communication in high-speed trains (HST) using a single frequency network (SFN). The abstract describes a system where a base station (BS) calculates pre-compensation values for reference signals transmitted through different transmission and reception points (TRPs). The BS then notifies the user equipment (UE) of these pre-compensation values. The UE adjusts its tracking loop for the reference signal based on these values, which helps reduce estimation and search overhead at the UE.
 
 
'''Abstract'''
 
Wireless communication devices, systems, and methods related to mechanisms for transmitting and receiving reference signals in a high-speed train (HST) single frequency network (SFN). A base station (BS) determines a first frequency pre-compensation value for a reference signal transmitted via a first transmission and reception point (TRP) and a second frequency pre-compensation value for a reference signal via a second TRP. The BS notifies a user equipment (UE) of the first and second pre-compensation values through at least one of the TRPs. The BS applies the first pre-compensation value to the reference signal via the first TRP and the second pre-compensation value to the reference signal via the second TRP. The UE adjusts its tracking loop for the reference signal based on the pre-compensation values, reducing estimation and/or search overhead at the UE.
 
  
 
===GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NTN BASED ON USER EQUIPMENT REQUIREMENTS ([[US Patent Application 17937302. GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NTN BASED ON USER EQUIPMENT REQUIREMENTS simplified abstract|17937302]])===
 
===GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NTN BASED ON USER EQUIPMENT REQUIREMENTS ([[US Patent Application 17937302. GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NTN BASED ON USER EQUIPMENT REQUIREMENTS simplified abstract|17937302]])===
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Liangping MA
 
Liangping MA
  
 
'''Brief explanation'''
 
The abstract describes a method, computer-readable medium, and apparatus for a User Equipment (UE) in a Non-Terrestrial Network (NTN). The UE can receive commands from the NTN and, in response, transmit an uplink transmission with a frequency change. The total frequency change is calculated based on the current location and velocity updates of the UE, ensuring it meets certain threshold requirements. Alternatively, the frequency change can be based on intermediary location and velocity updates between the current and previous updates.
 
 
'''Abstract'''
 
In an aspect of the disclosure, a method, a computer-readable medium, and an apparatus at a UE in NTN are provided. The UE may be configured to receive one or more FPC commands from an NTN. The UE may be further configured to transmit, in response to receiving the one or more FPC commands, an uplink transmission with a frequency change having a total FPC adjustment calculated based on (a) a current UE location update and a current UE velocity update, wherein the total FPC adjustment satisfies one or more threshold requirements, or (b) an intermediary UE location update between the current UE location update and a previous UE location update and an intermediary UE velocity update between the current UE velocity update and a previous UE velocity update.
 
  
 
===TECHNIQUES FOR BLOCKAGE SENSOR ASSISTED BEAM MANAGEMENT ([[US Patent Application 18304737. TECHNIQUES FOR BLOCKAGE SENSOR ASSISTED BEAM MANAGEMENT simplified abstract|18304737]])===
 
===TECHNIQUES FOR BLOCKAGE SENSOR ASSISTED BEAM MANAGEMENT ([[US Patent Application 18304737. TECHNIQUES FOR BLOCKAGE SENSOR ASSISTED BEAM MANAGEMENT simplified abstract|18304737]])===
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Jun ZHU
 
Jun ZHU
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device (UE) can transmit a monitoring signal using its antennas. The UE can then analyze the monitoring signal to identify any blockages affecting the antennas. Based on this identification, the UE can adjust the frequency of tracking occasions for the antennas and perform a beam search. This allows for improved wireless communication in the presence of blockages.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit a monitoring signal associated with one or more antennas. The UE may identify, based at least in part on the monitoring signal, a blockage associated with the one or more antennas. The UE may perform a beam search using a decreased frequency of occurrence of tracking occasions for the one or more antennas based at least in part on the identification of the blockage associated with the one or more antennas. Numerous other aspects are provided.
 
  
 
===LATTICE REDUCTION-AIDED PERTURBED ADDITIVE DEMAPPER FOR MULTIPLE-INPUT MULTIPLE-OUTPUT SIGNAL DETECTION ([[US Patent Application 18155454. LATTICE REDUCTION-AIDED PERTURBED ADDITIVE DEMAPPER FOR MULTIPLE-INPUT MULTIPLE-OUTPUT SIGNAL DETECTION simplified abstract|18155454]])===
 
===LATTICE REDUCTION-AIDED PERTURBED ADDITIVE DEMAPPER FOR MULTIPLE-INPUT MULTIPLE-OUTPUT SIGNAL DETECTION ([[US Patent Application 18155454. LATTICE REDUCTION-AIDED PERTURBED ADDITIVE DEMAPPER FOR MULTIPLE-INPUT MULTIPLE-OUTPUT SIGNAL DETECTION simplified abstract|18155454]])===
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Markus PESCHL
 
Markus PESCHL
  
 
'''Brief explanation'''
 
This abstract describes a method for demapping a signal to a specific point in a signal constellation. The method involves identifying a seed point in the signal constellation from a received signal. A candidate set of codes is then generated based on the seed point and a perturbation applied to it. A probability distribution is created over the candidate set of codes, and a point in the signal constellation corresponding to the received signal is identified based on this distribution. The identified point is the code in the candidate set with the highest probability, and it is output as the value of the received signal.
 
 
'''Abstract'''
 
Certain aspects of the present disclosure provide techniques and apparatus for demapping a signal to a point in a signal constellation. An example method generally includes identifying a seed point in a signal constellation from a received signal. A candidate set of codes for the signal is generated based on a seed point and an additive perturbation applied to the seed point. A point in the signal constellation corresponding to the value of the received signal is identified based on a probability distribution generated over the candidate set of codes. Generally, the identified point corresponds to a code in the candidate set of codes having a highest probability in the probability distribution. The point in the signal constellation is output as the value of the received signal.
 
  
 
===BASE STATION-TO-SERVER SIGNALING OF TIME-ANGLE CHANNEL PROFILE ([[US Patent Application 18042972. BASE STATION-TO-SERVER SIGNALING OF TIME-ANGLE CHANNEL PROFILE simplified abstract|18042972]])===
 
===BASE STATION-TO-SERVER SIGNALING OF TIME-ANGLE CHANNEL PROFILE ([[US Patent Application 18042972. BASE STATION-TO-SERVER SIGNALING OF TIME-ANGLE CHANNEL PROFILE simplified abstract|18042972]])===
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Sooryanarayanan GOPALAKRISHNAN
 
Sooryanarayanan GOPALAKRISHNAN
  
 
'''Brief explanation'''
 
The abstract describes a method for wireless positioning using a base station and a user equipment (UE). The base station determines the characteristics of the wireless channel between itself and the UE, compresses this information into a smaller representation, and sends it to a network entity. The network entity then uses this compressed information to determine the location of the UE.
 
 
'''Abstract'''
 
Disclosed are techniques for wireless positioning. In an aspect, a base station determines a channel profile for a multipath channel between the base station and a user equipment (UE) based on at least one positioning reference signal transmitted to the UE or received from the UE by the base station on one or more radio beams, compresses the channel profile into a compressed representation of the channel profile, and transmits the compressed representation of the channel profile to a network entity. The network entity receives the compressed representation of the time-angle channel profile and determines a location of the UE based on the compressed representation of the channel profile.
 
  
 
===BEAMFORMING REPEATER WITH META-SURFACE ANTENNAS ([[US Patent Application 17721979. BEAMFORMING REPEATER WITH META-SURFACE ANTENNAS simplified abstract|17721979]])===
 
===BEAMFORMING REPEATER WITH META-SURFACE ANTENNAS ([[US Patent Application 17721979. BEAMFORMING REPEATER WITH META-SURFACE ANTENNAS simplified abstract|17721979]])===
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Raju HORMIS
 
Raju HORMIS
  
 
'''Brief explanation'''
 
The abstract describes a wireless repeater device that uses two meta-surface antennas to receive and transmit RF signals. The device includes a signal relay chain that amplifies the received signal from the first antenna and transmits it through the second antenna. Alternatively, the relay chain can also receive the signal directly from the first antenna's reception port and transmit it through the antenna's transmit port.
 
 
'''Abstract'''
 
A wireless repeater receives an RF signal at a first meta-surface antenna. A signal relay chain amplifies a received RF signal from the first meta-surface antenna into a transmit RF signal that is transmitted by a second meta-surface antenna. Alternatively, the signal relay chain receives the RF signal at a reception port of the first meta-surface antenna, which may include a transmit port for receiving the transmit RF signal.
 
  
 
===TECHNIQUES AND APPARATUSES FOR DOWNLINK CONTROL CHANNEL DESIGN USING A TOP TO BOTTOM SEARCH SPACE ([[US Patent Application 18307347. TECHNIQUES AND APPARATUSES FOR DOWNLINK CONTROL CHANNEL DESIGN USING A TOP TO BOTTOM SEARCH SPACE simplified abstract|18307347]])===
 
===TECHNIQUES AND APPARATUSES FOR DOWNLINK CONTROL CHANNEL DESIGN USING A TOP TO BOTTOM SEARCH SPACE ([[US Patent Application 18307347. TECHNIQUES AND APPARATUSES FOR DOWNLINK CONTROL CHANNEL DESIGN USING A TOP TO BOTTOM SEARCH SPACE simplified abstract|18307347]])===
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Jing SUN
 
Jing SUN
  
 
'''Brief explanation'''
 
The abstract explains that user equipment in a legacy network uses a search technique to find relevant control channel samples. However, this technique may not work well in a single-carrier waveform, which is a disadvantage as networks transition to New Radio. To address this, a base station generates a control channel with minimal gaps, and user equipment uses a different search technique to improve efficiency and reduce degradation of single-carrier waveforms.
 
 
'''Abstract'''
 
User equipment associated with a legacy network may utilize a bottom-to-top search technique to identify relevant control channel samples. Generating a control channel that is configured for the bottom-to-top search technique may lead to poor performance in a single-carrier waveform, which may be disadvantageous as networks move toward New Radio. In some aspects, described herein, a base station generates a control channel that is configured to minimize gaps in the control channel, and a user equipment performs a top-to-bottom search technique to identify relevant control channel samples. By using the top-to-bottom search technique, degradation of single-carrier waveforms is reduced and efficiency is improved.
 
  
 
===CRC BITS FOR JOINT DECODING AND VERIFICATION OF CONTROL INFORMATION USING POLAR CODES ([[US Patent Application 18332412. CRC BITS FOR JOINT DECODING AND VERIFICATION OF CONTROL INFORMATION USING POLAR CODES simplified abstract|18332412]])===
 
===CRC BITS FOR JOINT DECODING AND VERIFICATION OF CONTROL INFORMATION USING POLAR CODES ([[US Patent Application 18332412. CRC BITS FOR JOINT DECODING AND VERIFICATION OF CONTROL INFORMATION USING POLAR CODES simplified abstract|18332412]])===
Line 310: Line 190:
 
Changlong XU
 
Changlong XU
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system that uses polar coding to transmit control information. The control information is combined with cyclic redundancy check (CRC) information, which is used to verify the accuracy of the control information. The system reduces the overhead of CRC by selecting a specific number of CRC bits that can be used to decode and verify the control information together.
 
 
'''Abstract'''
 
Aspects of the disclosure relate to wireless communication systems configured to provide techniques for polar coding control information together with combined cyclic redundancy check (CRC) information. The combined CRC information may include a number of CRC bits selected to jointly decode and verify the control information to reduce the CRC overhead.
 
  
 
===CHANNEL STATE INFORMATION (CSI) REDUCTION FOR DEFERRED FEEDBACK ([[US Patent Application 17723321. CHANNEL STATE INFORMATION (CSI) REDUCTION FOR DEFERRED FEEDBACK simplified abstract|17723321]])===
 
===CHANNEL STATE INFORMATION (CSI) REDUCTION FOR DEFERRED FEEDBACK ([[US Patent Application 17723321. CHANNEL STATE INFORMATION (CSI) REDUCTION FOR DEFERRED FEEDBACK simplified abstract|17723321]])===
Line 324: Line 198:
 
Ahmed ELSHAFIE
 
Ahmed ELSHAFIE
  
 
'''Brief explanation'''
 
The abstract describes a method for reducing the size of the channel state information (CSI) transmitted by a user equipment (UE) along with acknowledgement information. The UE combines the acknowledgement information for received packets with turbo acknowledgement information that includes both acknowledgement information and CSI feedback for remaining packets. This helps to reduce the amount of data transmitted in the uplink resource.
 
 
'''Abstract'''
 
Aspects of the present disclosure provide mechanisms for reducing the payload size of the channel state information (CSI) multiplexed together with deferred acknowledgement information. In some examples, a user equipment (UE) may transmit combined acknowledgement information including the respective acknowledgement information for one or more of received packets, along with turbo acknowledgement information including both the respective acknowledgement information and the respective CSI feedback for one or more remaining ones of the packets within an uplink resource.
 
  
 
===SKIPPED RESOURCES OF A GRANT ([[US Patent Application 17659433. SKIPPED RESOURCES OF A GRANT simplified abstract|17659433]])===
 
===SKIPPED RESOURCES OF A GRANT ([[US Patent Application 17659433. SKIPPED RESOURCES OF A GRANT simplified abstract|17659433]])===
Line 338: Line 206:
 
Diana MAAMARI
 
Diana MAAMARI
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device (UE) can receive a permission to use a specific channel for transmitting data. The UE has the ability to choose certain resources within that channel to skip, such as specific frequencies or time slots. The UE then sends information to the network indicating which resources were skipped and which were used. The UE only uses the non-skipped resources for transmitting its data. 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 a grant for a physical uplink channel. The UE may select skipped resources that include one or more of frequency resources or time resources in the grant to skip for a communication on the physical uplink channel. The UE may transmit uplink control information (UCI) that indicates the skipped resources or non-skipped resources of the grant. The UE may transmit the communication using the non-skipped resources and not the skipped resources. Numerous other aspects are described.
 
  
 
===FEEDBACK COMMUNICATIONS FOR TRANSPORT BLOCKS WITH MULTIPLE CODE BLOCK GROUPS ([[US Patent Application 17659150. FEEDBACK COMMUNICATIONS FOR TRANSPORT BLOCKS WITH MULTIPLE CODE BLOCK GROUPS simplified abstract|17659150]])===
 
===FEEDBACK COMMUNICATIONS FOR TRANSPORT BLOCKS WITH MULTIPLE CODE BLOCK GROUPS ([[US Patent Application 17659150. FEEDBACK COMMUNICATIONS FOR TRANSPORT BLOCKS WITH MULTIPLE CODE BLOCK GROUPS simplified abstract|17659150]])===
Line 352: Line 214:
 
Ahmed Attia ABOTABL
 
Ahmed Attia ABOTABL
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device receives a data block from a network entity. The user device then sends feedback to the network entity about the data block using a smaller number of feedback bits than the number of data block groups in the received data block.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a network entity, a transport block that includes a number of code block groups (CBGs). The UE may transmit a feedback communication associated with the transport block, wherein the feedback communication indicates feedback associated with the CBGs using a number of feedback bits, and wherein the number of feedback bits is less than the number of CBGs of the transport block. Numerous other aspects are described.
 
  
 
===OPEN RADIO ACCESS NETWORK MESSAGE CONFIGURATIONS ([[US Patent Application 18003082. OPEN RADIO ACCESS NETWORK MESSAGE CONFIGURATIONS simplified abstract|18003082]])===
 
===OPEN RADIO ACCESS NETWORK MESSAGE CONFIGURATIONS ([[US Patent Application 18003082. OPEN RADIO ACCESS NETWORK MESSAGE CONFIGURATIONS simplified abstract|18003082]])===
Line 366: Line 222:
 
Doohyun SUNG
 
Doohyun SUNG
  
 
'''Brief explanation'''
 
The abstract describes a method in which an O-DU (Open Distributed Unit) transmits a message to an O-RU (Open Radio Unit) in a wireless communication system. The message includes information about a set of Resource Blocks (RBs) and their associated modulation factors. The O-RU then processes the message and performs modulation compression based on this information. Additionally, the abstract mentions that one O-RAN unit can transmit a message to another O-RAN unit regarding combining across symbols at the O-RU.
 
 
'''Abstract'''
 
In an aspect, an O-DU transmits a C-Plane message including a section description that specifies common PRB information associated with a plurality of RSs, the section description comprising a set of RS-specific section description extensions that each specify a PRB offset and a modulation scaling factor for a respective RS among the plurality of RSs. The O-RU processes the C-Plane message with modulation compression in accordance with the set of RS-specific section description extensions. In another aspect, a first O-RAN unit (e.g., O-DU or O-RU) transmits a message to a second O-RAN unit (e.g., O-RU or O-DU) associated with combining across symbols at an O-RU.
 
  
 
===POSITIONING REFERENCE SIGNAL SELECTION FOR POWER SAVINGS ([[US Patent Application 18006755. POSITIONING REFERENCE SIGNAL SELECTION FOR POWER SAVINGS simplified abstract|18006755]])===
 
===POSITIONING REFERENCE SIGNAL SELECTION FOR POWER SAVINGS ([[US Patent Application 18006755. POSITIONING REFERENCE SIGNAL SELECTION FOR POWER SAVINGS simplified abstract|18006755]])===
Line 380: Line 230:
 
Alexandros MANOLAKOS
 
Alexandros MANOLAKOS
  
 
'''Brief explanation'''
 
The abstract describes techniques for selecting positioning reference signals with a user equipment (UE). The method involves receiving requirements for measuring and reporting positioning reference signals, measuring the signals based on these requirements, and reporting the measurement results.
 
 
'''Abstract'''
 
Techniques are provided for herein for down selecting positioning reference signals with a user equipment (UE). An example method for measuring and reporting positioning reference signals includes receiving positioning reference signal measurement and accuracy requirements, measuring one or more positioning reference signals based on the measurement and accuracy requirements, and reporting one or more positioning reference signal measurement results based on the measurement and accuracy requirements.
 
  
 
===TRIGGERING A POSITIONING-RELATED ACTION BASED ON A CHANNEL STATE INFORMATION REQUEST FIELD ([[US Patent Application 18042554. TRIGGERING A POSITIONING-RELATED ACTION BASED ON A CHANNEL STATE INFORMATION REQUEST FIELD simplified abstract|18042554]])===
 
===TRIGGERING A POSITIONING-RELATED ACTION BASED ON A CHANNEL STATE INFORMATION REQUEST FIELD ([[US Patent Application 18042554. TRIGGERING A POSITIONING-RELATED ACTION BASED ON A CHANNEL STATE INFORMATION REQUEST FIELD simplified abstract|18042554]])===
Line 394: Line 238:
 
Alexandros MANOLAKOS
 
Alexandros MANOLAKOS
  
 
'''Brief explanation'''
 
The abstract describes a system where a component called LMF can trigger actions related to positioning on a user equipment (UE). The LMF component can request a base station (BS) that serves the UE to trigger these actions. The BS can send a communication with a field that requests Channel State Information (CSI) reporting or triggers positioning-related actions. This field can also include information related to positioning, such as PRS configuration, positioning measurement requests, or location reporting requests. The UE can then perform the positioning-related actions based on this information.
 
 
'''Abstract'''
 
In an aspect, an LMF component may determine to trigger positioning-related action(s) at a UE. The LMF component may request that a serving BS of the UE trigger the positioning-related action(s). The serving BS may transmit a DCI communication with a CSI request field (e.g., that triggers at least CSI reporting, or triggers positioning-related action(s) only). The CSI request field may further be associated with positioning-related information including at least one PRS configuration, at least one positioning measurement request, at least one location reporting request, or a combination thereof. The UE may perform the positioning-related action(s) based on the positioning-related information.
 
  
 
===REFERENCE SIGNAL MAPPING ([[US Patent Application 17659322. REFERENCE SIGNAL MAPPING simplified abstract|17659322]])===
 
===REFERENCE SIGNAL MAPPING ([[US Patent Application 17659322. REFERENCE SIGNAL MAPPING simplified abstract|17659322]])===
Line 408: Line 246:
 
Kazuki TAKEDA
 
Kazuki TAKEDA
  
 
'''Brief explanation'''
 
The abstract describes a user equipment (UE) that can receive signals from a network node through multiple resource element groups (REGs). The UE receives communication parameters from the network node, indicating two REG bundles. It then receives a downlink transmission through the first REG bundle and performs channel estimation based on reference signals transmitted through both the first and second REG bundles.
 
 
'''Abstract'''
 
Certain aspects are directed to a user equipment (UE) configured to receive reference signals from a network node via multiple resource element groups (REGs) including at least one REG carrying a downlink transmission. In some examples, the UE may be configured to receive, from the network node, communication parameters for a downlink transmission, the communication parameters indicative of a first resource element group (REG) bundle and a second REG bundle. In some examples, the UE may receive the downlink transmission via the first REG bundle. In some examples, the UE may be configured to perform channel estimation of the downlink transmission based on reference signals transmitted via the first REG bundle and the second REG bundle.
 
  
 
===SELF-INTERFERENCE CANCELLATION FOR FULL-DUPLEX COMMUNICATION ([[US Patent Application 18147494. SELF-INTERFERENCE CANCELLATION FOR FULL-DUPLEX COMMUNICATION simplified abstract|18147494]])===
 
===SELF-INTERFERENCE CANCELLATION FOR FULL-DUPLEX COMMUNICATION ([[US Patent Application 18147494. SELF-INTERFERENCE CANCELLATION FOR FULL-DUPLEX COMMUNICATION simplified abstract|18147494]])===
Line 422: Line 254:
 
Min Soo SIM
 
Min Soo SIM
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a network node can transmit and receive signals simultaneously using a full duplex configuration. The node is able to cancel out any interference caused by its own transmitted signal using a nonlinear interference cancellation procedure. This procedure is based on a set of candidate kernels that represent a model of the self-interference. 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 a first signal in accordance with a full duplex configuration. The network node may receive a second signal comprising a communication and self-interference associated with the first signal, wherein receiving the second signal comprises cancelling the self-interference based at least in part on a nonlinear interference cancellation (NLIC) procedure associated with a subset of kernels of a set of nonlinear candidate kernels corresponding to a nonlinear self-interference model. Numerous other aspects are described.
 
  
 
===OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM ([[US Patent Application 17659469. OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM simplified abstract|17659469]])===
 
===OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM ([[US Patent Application 17659469. OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM simplified abstract|17659469]])===
Line 436: Line 262:
 
Lennart Karl-Axel MATHE
 
Lennart Karl-Axel MATHE
  
 
'''Brief explanation'''
 
The abstract describes a method for a user equipment (UE) device to obtain and synchronize analog-to-digital converter (ADC) samples. The UE device obtains a set of ADC samples and generates a start signal to indicate the beginning of capturing these samples. It then synchronizes this start signal with a system clock and generates a capturing sample clock to capture the ADC samples. By inputting the start signal and capturing sample clock into a counter, the UE device determines the time difference between the start signal synchronization and the capturing of the ADC samples. Based on this time difference, the UE device determines the timing of the ADC output for the set of ADC samples.
 
 
'''Abstract'''
 
According to embodiments, an example UE may include means for obtaining a set of ADC samples generated by an ADC based on analog signals and an ADC input clock and means for generating, at a first time point, a start signal indicating a starting point of capturing the set of ADC samples. The UE may also include means for synchronizing, at a second time point, the start signal and a system clock and means for generating, at a third time point, a capturing sample clock for capturing the set of ADC samples. The means may further include means for inputting the start signal and the capturing sample clock to a counter to determine a time difference between the second time point and the third time point and means for determining the ADC output timing of the set of ADC samples based on the time difference.
 
  
 
===MULTI-GENERATION COMMUNICATION IN A WIRELESS LOCAL AREA NETWORK (WLAN) ([[US Patent Application 18182288. MULTI-GENERATION COMMUNICATION IN A WIRELESS LOCAL AREA NETWORK (WLAN) simplified abstract|18182288]])===
 
===MULTI-GENERATION COMMUNICATION IN A WIRELESS LOCAL AREA NETWORK (WLAN) ([[US Patent Application 18182288. MULTI-GENERATION COMMUNICATION IN A WIRELESS LOCAL AREA NETWORK (WLAN) simplified abstract|18182288]])===
Line 450: Line 270:
 
Stephen Jay SHELLHAMMER
 
Stephen Jay SHELLHAMMER
  
 
'''Brief explanation'''
 
This disclosure presents methods, devices, and systems for wireless communication. It focuses on generating or receiving a multi-generation physical layer protocol data unit (PPDU). The multi-generation PPDU includes a first generation-specific preamble and a second generation-specific preamble in the same transmission. These preambles are based on different generations of a wireless communication specification, such as the IEEE 802.11 family of standards. The preambles are generated considering the bandwidth portions of the wireless channel they will occupy in the multi-generation PPDU. Some of the preambles may be modified based on the overall bandwidth of the multi-generation PPDU. The disclosure provides various options for modifying the preambles or data fields to accommodate their use in a multi-generation PPDU.
 
 
'''Abstract'''
 
This disclosure provides methods, devices and systems for wireless communication, and particularly, for generating or receiving a multi-generation physical layer protocol data unit (PPDU). The multi-generation PPDU may concurrently include a first generation-specific preamble based on a first generation of a wireless communication specification (such as that defined by the Institute of Electrical and Electronics Engineers (IEEE) 802.11 family of standards) and a second generation-specific preamble based on a second generation of the wireless communication specification in a same transmission. The generation-specific preambles may be generated based on bandwidth portions of a wireless channel that each generation-specific preamble will occupy in the multi-generation PPDU. One or more of the generation-specific preambles may be modified based on an aggregate bandwidth of the multi-generation PPDU. This disclosure includes several options for modifying one or more generation-specific preambles or data fields to accommodate their use in a multi-generation PPDU.
 
  
 
===SOUNDING REFERENCE SIGNAL (SRS) CYCLIC SHIFT HOPPING ([[US Patent Application 17659799. SOUNDING REFERENCE SIGNAL (SRS) CYCLIC SHIFT HOPPING simplified abstract|17659799]])===
 
===SOUNDING REFERENCE SIGNAL (SRS) CYCLIC SHIFT HOPPING ([[US Patent Application 17659799. SOUNDING REFERENCE SIGNAL (SRS) CYCLIC SHIFT HOPPING simplified abstract|17659799]])===
Line 464: Line 278:
 
Muhammad Sayed Khairy ABDELGHAFFAR
 
Muhammad Sayed Khairy ABDELGHAFFAR
  
 
'''Brief explanation'''
 
The abstract describes a method for wireless communication. It explains that a user equipment (UE) receives a configuration for a sounding reference signal (SRS), which includes parameters defining a resource for the SRS. The UE also receives a parameter for cyclic shift hopping, which determines how the SRS is transmitted. Finally, the UE transmits the SRS on the specified resource, following the configuration provided, including the cyclic shift hopping parameter.
 
 
'''Abstract'''
 
Disclosed are techniques for wireless communication. In an aspect, a user equipment (UE) receives a sounding reference signal (SRS) configuration, the SRS configuration including one or more parameters defining an SRS resource, receives a cyclic shift hopping parameter for SRS transmissions, and transmits an SRS on the SRS resource, the SRS configured according to at least the cyclic shift hopping parameter.
 
  
 
===ADAPTATION FOR EXTENDED REALITY TRANSMISSIONS ([[US Patent Application 17724224. ADAPTATION FOR EXTENDED REALITY TRANSMISSIONS simplified abstract|17724224]])===
 
===ADAPTATION FOR EXTENDED REALITY TRANSMISSIONS ([[US Patent Application 17724224. ADAPTATION FOR EXTENDED REALITY TRANSMISSIONS simplified abstract|17724224]])===
Line 478: Line 286:
 
Huilin Xu
 
Huilin Xu
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications. These techniques allow for the dynamic configuration of feedback, repetition, and modulation and coding scheme for transmissions within an application data unit (ADU). A user equipment (UE) and a network entity can communicate control signaling to indicate transmission configurations for multiple time domain durations within an ADU. The transmission configurations specify the number of repetitions for each transmission. The network entity can also transmit control signaling to configure the number of repetitions for each feedback process associated with an ADU. It also indicates whether repetition is enabled for each feedback process and provides a redundancy version identifier sequence for repetitions. The UE and the network entity can then communicate transmissions within the ADU based on the control signaling.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. Described techniques provide for dynamic configuration of feedback, repetition, and/or modulation and coding scheme(s) for transmissions within an application data unit (ADU). A user equipment (UE) and a network entity may communicate control signaling indicating transmission configurations for a set of multiple time domain durations within an ADU and a start of a first time domain duration. The transmission configurations may indicate a number of repetitions for each transmission. In some cases, the network entity may transmit control signaling that separately configures a number of repetitions for each feedback process of a set of multiple feedback processes associated with an ADU and indicates whether repetition is enabled for each feedback process and a redundancy version identifier sequence for repetitions for each feedback process. The UE and the network entity may communicate transmissions within the ADU in accordance with the control signaling.
 
  
 
===METHODS FOR ADAPTIVE SIGNALING OF MAXIMUM NUMBER OF MERGE CANDIDATES IN MULTIPLE HYPOTHESIS PREDICTION ([[US Patent Application 18175988. METHODS FOR ADAPTIVE SIGNALING OF MAXIMUM NUMBER OF MERGE CANDIDATES IN MULTIPLE HYPOTHESIS PREDICTION simplified abstract|18175988]])===
 
===METHODS FOR ADAPTIVE SIGNALING OF MAXIMUM NUMBER OF MERGE CANDIDATES IN MULTIPLE HYPOTHESIS PREDICTION ([[US Patent Application 18175988. METHODS FOR ADAPTIVE SIGNALING OF MAXIMUM NUMBER OF MERGE CANDIDATES IN MULTIPLE HYPOTHESIS PREDICTION simplified abstract|18175988]])===
Line 492: Line 294:
 
Han Huang
 
Han Huang
  
 
'''Brief explanation'''
 
This abstract describes techniques and devices for coding video data. The device includes memory to store the video data and processors to process the data. The processors are designed to determine if multiple-hypothesis prediction (MHP) is enabled. If it is, they determine the maximum number of merge candidates for a MHP merge candidate list and generate the list accordingly. Finally, the video data is coded based on this merge candidate list.
 
 
'''Abstract'''
 
Example techniques and devices are disclosed for coding video data. An example device includes memory configured to store the video data and one or more processors implemented in circuitry and communicatively coupled to the memory. The one or more processors are configured to determine that multiple-hypothesis prediction (MHP) is enabled. The one or more processors are configured to, based on determining that MHP is enabled, determine a maximum number of merge candidates for a MHP merge candidate list. The one or more processors are configured to, based on the maximum number of merge candidates for the MHP merge candidate list, determine the MHP merge candidate list. The one or more processors are configured to code the video data based on the MHP merge candidate list.
 
  
 
===INTRA CHROMA MODE LIST CONSTRUCTION FOR VIDEO CODING ([[US Patent Application 18187517. INTRA CHROMA MODE LIST CONSTRUCTION FOR VIDEO CODING simplified abstract|18187517]])===
 
===INTRA CHROMA MODE LIST CONSTRUCTION FOR VIDEO CODING ([[US Patent Application 18187517. INTRA CHROMA MODE LIST CONSTRUCTION FOR VIDEO CODING simplified abstract|18187517]])===
Line 506: Line 302:
 
Yao-Jen Chang
 
Yao-Jen Chang
  
 
'''Brief explanation'''
 
This abstract describes a method for encoding or decoding video data. The method involves creating a list of different ways to predict the color information (chroma) in a specific block of the video. These prediction modes are derived from the prediction modes of neighboring blocks that have the same brightness information (luma). The method then determines the best prediction mode for the chroma block from the list and uses it to encode or decode the chroma block.
 
 
'''Abstract'''
 
A method of encoding or decoding video data includes constructing a list of chroma intra-prediction modes for a chroma block of a current block of the video data, wherein constructing includes adding intra-prediction modes of a first group to the list of chroma intra-prediction modes, the first group comprising two or more intra-prediction modes derived from intra-prediction modes of two or more co-located luma blocks of the current block that are co-located with the chroma block; determining an intra-prediction mode for the chroma block from the list of chroma intra-prediction modes; and encoding or decoding the chroma block based on the intra-prediction mode.
 
  
 
===VIRTUAL BOUNDARY PROCESSING FOR CCSAO, BILATERAL FILTER AND ADAPTIVE LOOP FILTER FOR VIDEO CODING ([[US Patent Application 18298787. VIRTUAL BOUNDARY PROCESSING FOR CCSAO, BILATERAL FILTER AND ADAPTIVE LOOP FILTER FOR VIDEO CODING simplified abstract|18298787]])===
 
===VIRTUAL BOUNDARY PROCESSING FOR CCSAO, BILATERAL FILTER AND ADAPTIVE LOOP FILTER FOR VIDEO CODING ([[US Patent Application 18298787. VIRTUAL BOUNDARY PROCESSING FOR CCSAO, BILATERAL FILTER AND ADAPTIVE LOOP FILTER FOR VIDEO CODING simplified abstract|18298787]])===
Line 520: Line 310:
 
Venkata Meher Satchit Anand Kotra
 
Venkata Meher Satchit Anand Kotra
  
 
'''Brief explanation'''
 
This abstract describes a device that can decode video data. The device includes a memory to store the video data and one or more processors to perform various tasks. One of the tasks is to decode a block of the video data and create a decoded block. The device then determines if a sample in the decoded block is next to a sample along a virtual boundary. If it is, the device computes band information for a process called cross component sample adaptive offset (CCSAO) using other samples in the decoded block that are not along any virtual boundary. The device then applies the CCSAO process to the current sample using the computed band information.
 
 
'''Abstract'''
 
An example device for decoding video data includes a memory configured to store video data; and one or more processors implemented in circuitry and configured to: decode a current block of the video data to form a decoded block; determine that a current sample of the decoded block neighbors a sample along a virtual boundary in the decoded block and neighbors one or more samples that are not along any virtual boundary in the decoded block; compute band information for cross component sample adaptive offset (CCSAO) for the current sample using at least one of the one or more samples that are not along any virtual boundary in the decoded block and without using the sample along the virtual boundary; and perform CCSAO on the current sample using the band information.
 
  
 
===VIDEO COMPRESSION USING DEEP GENERATIVE MODELS ([[US Patent Application 18337331. VIDEO COMPRESSION USING DEEP GENERATIVE MODELS simplified abstract|18337331]])===
 
===VIDEO COMPRESSION USING DEEP GENERATIVE MODELS ([[US Patent Application 18337331. VIDEO COMPRESSION USING DEEP GENERATIVE MODELS simplified abstract|18337331]])===
Line 534: Line 318:
 
Amirhossein HABIBIAN
 
Amirhossein HABIBIAN
  
 
'''Brief explanation'''
 
The abstract describes a method and apparatus for compressing video content using deep generative models. The video content is encoded into a latent code space using an encoder, and then a trained probabilistic model generates a compressed version of the video content. This compressed version can be outputted for transmission.
 
 
'''Abstract'''
 
Certain aspects of the present disclosure are directed to methods and apparatus for compressing video content using deep generative models. One example method generally includes receiving video content for compression. The received video content is generally encoded into a latent code space through an encoder, which may be implemented by a first artificial neural network. A compressed version of the encoded video content is generally generated through a trained probabilistic model, which may be implemented by a second artificial neural network, and output for transmission.
 
  
 
===RF-SENSING-BASED HUMAN IDENTIFICATION USING COMBINED GAIT AND SHAPE RECOGNITION ([[US Patent Application 17659602. RF-SENSING-BASED HUMAN IDENTIFICATION USING COMBINED GAIT AND SHAPE RECOGNITION simplified abstract|17659602]])===
 
===RF-SENSING-BASED HUMAN IDENTIFICATION USING COMBINED GAIT AND SHAPE RECOGNITION ([[US Patent Application 17659602. RF-SENSING-BASED HUMAN IDENTIFICATION USING COMBINED GAIT AND SHAPE RECOGNITION simplified abstract|17659602]])===
Line 548: Line 326:
 
Hadi GIVEHCHIAN
 
Hadi GIVEHCHIAN
  
 
'''Brief explanation'''
 
This abstract describes a method that uses channel state information (CSI) data from RF signals to determine the identity of a person. The method involves receiving reflected RF signals from a person over a period of time and analyzing the observed gait and shape of the person based on the CSI data. The determined identity of the person is then outputted as an indication.
 
 
'''Abstract'''
 
In some implementations, a method may comprise obtaining channel state information (CSI) data corresponding to a set of RF signals received by one or more receiving devices, wherein: the set RF signals comprises two or more reflected RF signals successively received by the one or more receiving devices after being reflected from a person, and the two or more reflected RF signals are received by the one or more receiving devices over a period of time. The method may further comprise determining an identity of the person based at least in part on an observed gait of the person and an observed shape of the person, wherein the observed gait of the person and the observed shape of the person are determined based at least in part on the CSI data. The method may further comprise outputting an indication of the determined identity of the person.
 
  
 
===MEASUREMENT MODEL BASED ON UPLINK SIGNALS WITH RECIPROCITY TO DOWNLINK BEAM ([[US Patent Application 18336817. MEASUREMENT MODEL BASED ON UPLINK SIGNALS WITH RECIPROCITY TO DOWNLINK BEAM simplified abstract|18336817]])===
 
===MEASUREMENT MODEL BASED ON UPLINK SIGNALS WITH RECIPROCITY TO DOWNLINK BEAM ([[US Patent Application 18336817. MEASUREMENT MODEL BASED ON UPLINK SIGNALS WITH RECIPROCITY TO DOWNLINK BEAM simplified abstract|18336817]])===
Line 562: Line 334:
 
Srinivas YERRAMALLI
 
Srinivas YERRAMALLI
  
 
'''Brief explanation'''
 
This abstract describes a method in which a network component collects measurement information from user equipment (UE) regarding the uplink signals. These uplink signals have a reciprocal relationship with the downlink beams of wireless nodes. The network component then uses this measurement information to create or refine a measurement model. This model is then provided to a specific UE, which receives signals on the downlink beams from the wireless nodes. The UE uses the measurement model to process these signals and make predictions about its own location.
 
 
'''Abstract'''
 
In an aspect, a network component (e.g., BS, server, etc.) obtains measurement information associated with uplink signal(s) from UE(s), with the uplink signal(s) having reciprocity with one or more downlink beams of wireless node(s) (e.g., TRP, reference UE, etc.). The network component determines (e.g., generates or refines) a measurement (e.g., RFFP-P) model based on the measurement information. The network component provides the measurement (e.g., RFFP-P) model to a target UE. The target UE receives at least one signal (e.g., PRS) on the one or more downlink beams from the wireless node(s). The target UE processes the at least one signal (e.g., predicts target UE location) based at least in part on the measurement (e.g., RFFP-P) model.
 
  
 
===TRS FOR MULTICAST AND BROADCAST ([[US Patent Application 18182257. TRS FOR MULTICAST AND BROADCAST simplified abstract|18182257]])===
 
===TRS FOR MULTICAST AND BROADCAST ([[US Patent Application 18182257. TRS FOR MULTICAST AND BROADCAST simplified abstract|18182257]])===
Line 576: Line 342:
 
Le LIU
 
Le LIU
  
 
'''Brief explanation'''
 
The abstract describes a method used by a base station in wireless communication to provide a broadcast/multicast service to a user equipment (UE) in a multicast broadcast single frequency network (MBSFN) area. The base station determines the service to be provided and transmits a tracking reference signal (TRS) to the UE, which contains information about how to receive the broadcast/multicast service.
 
 
'''Abstract'''
 
A base station may transmit a broadcast/multicast service in a multicast broadcast single frequency network (MBSFN) area multicast communication. A method of wireless communication at a base station in accordance with an aspect of the present disclosure comprises determining a broadcast/multicast service to be provided to a user equipment (UE) in a multicast broadcast single frequency network (MBSFN) area, and transmitting a tracking reference signal (TRS) to the UE, the TRS indicating information associated with receiving the broadcast/multicast service by the UE.
 
  
 
===MANAGING TRANSMISSION OF MISBEHAVIOR REPORTS ([[US Patent Application 17659359. MANAGING TRANSMISSION OF MISBEHAVIOR REPORTS simplified abstract|17659359]])===
 
===MANAGING TRANSMISSION OF MISBEHAVIOR REPORTS ([[US Patent Application 17659359. MANAGING TRANSMISSION OF MISBEHAVIOR REPORTS simplified abstract|17659359]])===
Line 590: Line 350:
 
Jonathan PETIT
 
Jonathan PETIT
  
 
'''Brief explanation'''
 
The abstract describes different methods and systems for a vehicle-to-everything (V2X) system in a vehicle. This system is designed to manage the transmission of reports regarding misbehavior in V2X communication. When a V2X misbehavior is detected, a misbehavior report is generated. The system then assigns a priority or transmission probability to this report based on an external condition related to the detected misbehavior. Finally, the report is transmitted based on the assigned priority or transmission probability.
 
 
'''Abstract'''
 
Various embodiments include methods and systems for vehicle-to-everything (V2X) system of a vehicle for managing transmission of misbehavior reports. Various embodiments may include generating a misbehavior report based on a detected V2X misbehavior, assigning a priority or a transmission probability to the generated misbehavior report based on an external condition related to the detected V2X misbehavior, and transmitting the misbehavior report based on the assigned priority or transmission probability.
 
  
 
===PERFORMANCE INDICATORS FOR COMBINATIONS OF MACHINE LEARNING MODELS ([[US Patent Application 17659129. PERFORMANCE INDICATORS FOR COMBINATIONS OF MACHINE LEARNING MODELS simplified abstract|17659129]])===
 
===PERFORMANCE INDICATORS FOR COMBINATIONS OF MACHINE LEARNING MODELS ([[US Patent Application 17659129. PERFORMANCE INDICATORS FOR COMBINATIONS OF MACHINE LEARNING MODELS simplified abstract|17659129]])===
Line 604: Line 358:
 
Xipeng ZHU
 
Xipeng ZHU
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device can transmit information about its capability to support different combinations of machine learning models. This information includes performance parameters of the machine learning models. Based on this information, the user device can receive instructions to use specific machine learning models.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit capability information that indicates support for one or more model combinations of machine learning (ML) models, wherein the capability information further indicates one or more performance parameters of an ML model of the ML models with respect to a model combination of the one or more model combinations that includes the ML model. The UE may receive one or more indications to use one or more of the ML models based at least in part on the capability information. Numerous other aspects are described.
 
  
 
===MINIMUM POSITIONING REFERENCE SIGNAL (PRS) PROCESSING WHEN MEASUREMENT GAPS ARE NOT CONFIGURED ([[US Patent Application 18336607. MINIMUM POSITIONING REFERENCE SIGNAL (PRS) PROCESSING WHEN MEASUREMENT GAPS ARE NOT CONFIGURED simplified abstract|18336607]])===
 
===MINIMUM POSITIONING REFERENCE SIGNAL (PRS) PROCESSING WHEN MEASUREMENT GAPS ARE NOT CONFIGURED ([[US Patent Application 18336607. MINIMUM POSITIONING REFERENCE SIGNAL (PRS) PROCESSING WHEN MEASUREMENT GAPS ARE NOT CONFIGURED simplified abstract|18336607]])===
Line 618: Line 366:
 
Alexandros MANOLAKOS
 
Alexandros MANOLAKOS
  
 
'''Brief explanation'''
 
The abstract describes techniques for wireless communication. It explains that a user equipment (UE) can send capability messages to a network entity, indicating its ability to process positioning reference signals (PRS). These capability messages include information about the duration of PRS that the UE can handle within a measurement window without any gaps. The UE then performs positioning measurements of PRS resources during this measurement window, up to the specified duration of PRS.
 
 
'''Abstract'''
 
Disclosed are techniques for wireless communication. In an aspect, a user equipment (UE) transmits, to a network entity, one or more capability messages indicating one or more capabilities of the UE to process positioning reference signals (PRS), the one or more capabilities indicating at least a duration of PRS that the UE can process within a measurement window without a measurement gap, and performs one or more positioning measurements of one or more PRS resources during the measurement window up to the duration of PRS.
 
  
 
===SIGNAL MODIFICATION FOR CONTROL CHANNEL PHYSICAL LAYER SECURITY ([[US Patent Application 17659319. SIGNAL MODIFICATION FOR CONTROL CHANNEL PHYSICAL LAYER SECURITY simplified abstract|17659319]])===
 
===SIGNAL MODIFICATION FOR CONTROL CHANNEL PHYSICAL LAYER SECURITY ([[US Patent Application 17659319. SIGNAL MODIFICATION FOR CONTROL CHANNEL PHYSICAL LAYER SECURITY simplified abstract|17659319]])===
Line 632: Line 374:
 
Ahmed ELSHAFIE
 
Ahmed ELSHAFIE
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a transmitter device modifies the input or output of certain processes, such as scrambling, modulation, or tone mapping, for a physical control channel signal. This modification is done using a secrecy key to ensure the signal is secure. The transmitter then sends this secured signal to a receiver device. 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 transmitter device may modify, based at least in part on a secrecy key, an input or an output of at least one of binary scrambling, modulation, or orthogonal frequency division multiplexing (OFDM) tone mapping for a physical control channel signal, resulting in a secured physical control channel signal. The transmitter device may transmit, to a receiver device, the secured physical control channel signal. Numerous other aspects are described.
 
  
 
===NETWORK SLICE-SPECIFIC AUTHENTICATION AND AUTHORIZATION ([[US Patent Application 18004153. NETWORK SLICE-SPECIFIC AUTHENTICATION AND AUTHORIZATION simplified abstract|18004153]])===
 
===NETWORK SLICE-SPECIFIC AUTHENTICATION AND AUTHORIZATION ([[US Patent Application 18004153. NETWORK SLICE-SPECIFIC AUTHENTICATION AND AUTHORIZATION simplified abstract|18004153]])===
Line 646: Line 382:
 
Haris Zisimopoulos
 
Haris Zisimopoulos
  
 
'''Brief explanation'''
 
This abstract describes methods, systems, and devices for wireless communications. It explains that a communication device, also known as a user equipment (UE), can configure an indication related to network slice information. The UE can determine if the network slice information requires network slice-specific authentication and authorization (NSSAA) based on this indication. Additionally, the UE can determine an authentication credential associated with the network slice information and send an indication to an access and mobility management function (AMF) regarding the availability of this authentication credential. Based on the NSSAA of the network slice information, the UE can access a network slice associated with the network slice information.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A communication device, otherwise known as a user equipment (UE) may configure an indication associated with network slice information. The UE may determine, based on the indication, that the network slice information is subject to network slice-specific authentication and authorization (NSSAA). Additionally or alternatively, the UE may determine an authentication credential associated with network slice information, and transmit, to an access and mobility management function (AMF), an indication related to an availability of an authentication credential associated with the network slice information. The UE may access a network slice associated with the network slice information based on the NSSAA of the network slice information.
 
  
 
===COMMUNICATION SECURITY BASED ON PARAMETER CHANGE ([[US Patent Application 17722054. COMMUNICATION SECURITY BASED ON PARAMETER CHANGE simplified abstract|17722054]])===
 
===COMMUNICATION SECURITY BASED ON PARAMETER CHANGE ([[US Patent Application 17722054. COMMUNICATION SECURITY BASED ON PARAMETER CHANGE simplified abstract|17722054]])===
Line 660: Line 390:
 
Sai Yiu Duncan HO
 
Sai Yiu Duncan HO
  
 
'''Brief explanation'''
 
The abstract describes a technology that involves changing certain communication parameters. These parameters can include things like association identifier, packet number, sequence number, traffic identifier, timing synchronization function value, or a combination of these. The technology allows one device to inform another device about any changes related to these parameters.
 
 
'''Abstract'''
 
Aspects relate to changing at least one communication parameter. In some examples, the at least one communication parameter may include at least one of an association identifier (AID), a packet number (PN), a sequence number (SN), a traffic identifier (TID), a timing synchronization function (TSF) value, or a combination thereof. In some examples, a first apparatus provides an indication of a change associated with at least one of the AID, the PN, the SN, the TID, the TSF value, or a combination thereof to a second apparatus.
 
  
 
===L1 SECURITY BY ADDING ARTIFICIAL AM/PM ([[US Patent Application 17659421. L1 SECURITY BY ADDING ARTIFICIAL AM/PM simplified abstract|17659421]])===
 
===L1 SECURITY BY ADDING ARTIFICIAL AM/PM ([[US Patent Application 17659421. L1 SECURITY BY ADDING ARTIFICIAL AM/PM simplified abstract|17659421]])===
Line 674: Line 398:
 
Igor GUTMAN
 
Igor GUTMAN
  
 
'''Brief explanation'''
 
The abstract describes a method for a network node and a user equipment (UE) to handle AM/PM (amplitude-to-phase modulation) impairments in a wireless communication system. The network node selects a reference AM/PM impairment signature and transmits it to the UE through a security signal. The network node also sends at least one reference signal to the UE via a downlink channel, which includes added AM/PM impairment based on the reference signature. The UE receives the reference signal and estimates the AM/PM impairment signature. It then compares the estimated signature with the reference signature and decides whether to keep or discard the associated downlink channel slot based on the match.
 
 
'''Abstract'''
 
A network node may select a reference AM/PM impairment signature. The network node may transmit, to a UE, a first indication of the reference AM/PM impairment signature via a security signal. The network node may transmit, to the UE, at least one reference signal via a downlink channel. The at least one reference signal may include added AM/PM impairment based on the reference AM/PM impairment signature. The UE may receive, from a transmitter, at least one reference signal via a downlink channel. The UE may estimate an AM/PM impairment signature in the at least one reference signal. The UE may identify whether the estimated AM/PM impairment signature matches a reference AM/PM impairment signature. Further, the UE may maintain or discard at least one slot associated with the downlink channel based on whether the estimated AM/PM impairment signature matches the reference AM/PM impairment signature.
 
  
 
===WAKE-UP SIGNAL BASED SEMI-PERSISTENT SCHEDULING CONFIGURATION FOR EXTENDED REALITY TRAFFIC ([[US Patent Application 17659328. WAKE-UP SIGNAL BASED SEMI-PERSISTENT SCHEDULING CONFIGURATION FOR EXTENDED REALITY TRAFFIC simplified abstract|17659328]])===
 
===WAKE-UP SIGNAL BASED SEMI-PERSISTENT SCHEDULING CONFIGURATION FOR EXTENDED REALITY TRAFFIC ([[US Patent Application 17659328. WAKE-UP SIGNAL BASED SEMI-PERSISTENT SCHEDULING CONFIGURATION FOR EXTENDED REALITY TRAFFIC simplified abstract|17659328]])===
Line 688: Line 406:
 
Olufunmilola Omolade AWONIYI-OTERI
 
Olufunmilola Omolade AWONIYI-OTERI
  
 
'''Brief explanation'''
 
This abstract describes a method, computer-readable medium, and apparatus for wireless communication between a user equipment (UE) and a base station. The UE monitors for a wake-up signal (WUS) within a specific time window based on the jitter monitoring window associated with jittered data traffic at the base station. If the WUS is received within this window, the UE detects a semi-persistent scheduling (SPS) occasion following the location of the WUS by an offset. The base station then transmits a physical downlink shared channel, including a data frame of the jittered data traffic, to the UE in this SPS occasion.
 
 
'''Abstract'''
 
A method, a computer-readable medium, and an apparatus are provided for wireless communication between a user equipment (UE) and a base station. The UE monitors for a wake-up signal (WUS) within a WUS monitoring window based on a jitter monitoring window associated with jittered data traffic at a base station. The base station transmits, to the UE, the WUS. The UE determines whether the WUS is received within the WUS monitoring window. The UE detects a semi-persistent scheduling (SPS) occasion following a location of the WUS by an offset based on the WUS being received within the WUS monitoring window. The base station transmits, to the UE, in the SPS occasion following the WUS by the offset, a physical downlink shared channel including a data frame of the jittered data traffic.
 
  
 
===TECHNIQUES FOR WIDE BANDWIDTH POSITIONING IN A WIRELESS LOCAL AREA NETWORK ([[US Patent Application 17722197. TECHNIQUES FOR WIDE BANDWIDTH POSITIONING IN A WIRELESS LOCAL AREA NETWORK simplified abstract|17722197]])===
 
===TECHNIQUES FOR WIDE BANDWIDTH POSITIONING IN A WIRELESS LOCAL AREA NETWORK ([[US Patent Application 17722197. TECHNIQUES FOR WIDE BANDWIDTH POSITIONING IN A WIRELESS LOCAL AREA NETWORK simplified abstract|17722197]])===
Line 702: Line 414:
 
Yanjun Sun
 
Yanjun Sun
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications that support greater bandwidths for ranging null data packets (NDPs). These designs allow for the use of a 320 MHz bandwidth, which offers higher resolution than narrower bandwidths. The signaling and messaging designs include updates for various frames such as null data packet announcement (NDPA) frame, trigger frame, session negation messages, and segmentation techniques for ranging NDPs.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. In some aspects, two devices may support signaling and messaging designs that support bandwidths that are greater than 160 MHz for ranging null data packets (NDPs). For example, various signaling and messaging designs may support a use of a 320 MHz bandwidth for ranging NDPs as part of a ranging measurement procedure, which may offer greater resolution than narrower bandwidths. The signaling and messaging designs may include one or more updates for a null data packet announcement (NDPA) frame, for a trigger frame, for session negation messages (such as one or both of an initial fine timing measurement (IFTM) frame and an IFTM request (IFTMR) frame), for segmentation techniques for ranging NDPs, or for any combination thereof.
 
  
 
===COMMUNICATION SECURITY BASED ON FREQUENCY DOMAIN RESIDUAL SIDEBAND CHARACTERISTICS ([[US Patent Application 17722216. COMMUNICATION SECURITY BASED ON FREQUENCY DOMAIN RESIDUAL SIDEBAND CHARACTERISTICS simplified abstract|17722216]])===
 
===COMMUNICATION SECURITY BASED ON FREQUENCY DOMAIN RESIDUAL SIDEBAND CHARACTERISTICS ([[US Patent Application 17722216. COMMUNICATION SECURITY BASED ON FREQUENCY DOMAIN RESIDUAL SIDEBAND CHARACTERISTICS simplified abstract|17722216]])===
Line 716: Line 422:
 
Igor Gutman
 
Igor Gutman
  
 
'''Brief explanation'''
 
This abstract describes methods, systems, and devices for wireless communication. It explains that in some systems, a transmitting device can send first signaling to a receiving device to indicate certain parameters associated with the receiving device. These parameters, known as frequency domain residual sideband (FDRSB) parameters, are related to the imbalance between the in-phase and quadrature phase components of the first signaling. The receiving device then generates and transmits second signaling that is designed to have the same FDRSB characteristics as indicated by the first signaling. The transmitting device can determine if the receiving device is the source of the second signaling by comparing the FDRSB characteristics of the second signaling with the FDRSB parameters indicated by the first signaling.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communication are described. In some systems, a second network entity (e.g., a transmitting device) may transmit first signaling to a second network entity (e.g., a receiving device) to indicate one or more frequency domain residual sideband (FDRSB) parameters associated with the second network entity. The FDRSB parameters may be associated with an imbalance between an in-phase component and a quadrature phase component of the first signaling. The second network entity may generate and transmit second signaling that is configured to have the one or more FDRSB characteristics. The first network entity may determine whether the second network entity is a source of the second signaling based on the one or more FDRSB characteristics of the second signaling and the one or more FDRSB parameters indicated by the first signaling.
 
  
 
===PHYSICAL LAYER PREAMBLE DESIGN FOR SPECIAL PACKET TYPES ([[US Patent Application 18304310. PHYSICAL LAYER PREAMBLE DESIGN FOR SPECIAL PACKET TYPES simplified abstract|18304310]])===
 
===PHYSICAL LAYER PREAMBLE DESIGN FOR SPECIAL PACKET TYPES ([[US Patent Application 18304310. PHYSICAL LAYER PREAMBLE DESIGN FOR SPECIAL PACKET TYPES simplified abstract|18304310]])===
Line 730: Line 430:
 
Jialing Li CHEN
 
Jialing Li CHEN
  
 
'''Brief explanation'''
 
This disclosure presents methods, devices, and systems for creating packet preambles. It focuses on designing preambles for specific scenarios such as full-bandwidth multi-user multiple-input multiple-output (MU-MIMO), single-user (SU) preamble puncturing, hybrid automatic repeat request (HARD), and multi-AP coordination. Multi-AP coordination can involve coordinated beamforming (CoBF), joint transmission (JT), or coordinated orthogonal frequency division multiple access (C-OFDMA). The disclosure also covers preamble designs that can accommodate signal fields of different cases.
 
 
'''Abstract'''
 
This disclosure provides methods, devices and systems for generating packet preambles. Some implementations more specifically relate to preamble designs for special cases such as, for example, full-bandwidth multi-user multiple-input multiple-output (MU-MIMO), single-user (SU) preamble puncturing, hybrid automatic repeat request (HARD), and multi-AP coordination. Multi-AP coordination may refer to coordinated beamforming (CoBF), joint transmission (JT), or coordinated orthogonal frequency division multiple access (C-OFDMA). Additionally, or alternatively, some implementations more specifically relate to preamble designs that accommodate signal fields of different cases.
 
  
 
===DYNAMIC MU-MIMO STAGING FOR REAL-WORLD APPLICATIONS ([[US Patent Application 17722601. DYNAMIC MU-MIMO STAGING FOR REAL-WORLD APPLICATIONS simplified abstract|17722601]])===
 
===DYNAMIC MU-MIMO STAGING FOR REAL-WORLD APPLICATIONS ([[US Patent Application 17722601. DYNAMIC MU-MIMO STAGING FOR REAL-WORLD APPLICATIONS simplified abstract|17722601]])===
Line 744: Line 438:
 
Nicholas KUCHAREWSKI
 
Nicholas KUCHAREWSKI
  
 
'''Brief explanation'''
 
This abstract describes a system where an access point (AP) receives service-level agreement (SLA) parameters that specify a maximum delay for different types of data traffic. The AP then receives packets of data for different traffic flows. If the data in the first packets of a particular traffic flow is below a certain threshold, the AP delays their transmission. During this delay period, the AP continues to receive packets from this traffic flow as well as packets from another traffic flow. If the data in the first and second packets of the first traffic flow is above a certain threshold, and the data in the packets of the second traffic flow is also above a different threshold, the AP groups these traffic flows together and transmits them using a multi-user, multiple-input, multiple-output (MU-MIMO) communication method.
 
 
'''Abstract'''
 
An AP obtains service-level agreement (SLA) parameters indicating at least a delay bound for each of a plurality of traffic flows. The AP receives first packets of a first traffic flow, and delays their transmission for a delay period based on the data carried in the first packets being less than a first threshold. During the delay period, the AP receives second packets of the first traffic flow while also receiving packets of a second traffic flow, groups the second traffic flow with the first traffic flow for an MU-MIMO transmission based on the data carried in the first and second packets of the first traffic flow being greater than the first threshold and the data carried in the packets of the second traffic flow being greater than a second threshold, and transmits the first and second packets traffic flows as an MU-MIMO communication.
 
  
 
===MANAGED MU-MIMO ENABLEMENT FOR REAL-WORLD APPLICATIONS ([[US Patent Application 17722564. MANAGED MU-MIMO ENABLEMENT FOR REAL-WORLD APPLICATIONS simplified abstract|17722564]])===
 
===MANAGED MU-MIMO ENABLEMENT FOR REAL-WORLD APPLICATIONS ([[US Patent Application 17722564. MANAGED MU-MIMO ENABLEMENT FOR REAL-WORLD APPLICATIONS simplified abstract|17722564]])===
Line 758: Line 446:
 
Ahmed Ragab ELSHERIF
 
Ahmed Ragab ELSHERIF
  
 
'''Brief explanation'''
 
This abstract describes a system and method for enabling multi-user communications. An access point (AP) collects packets and information about the traffic flow, such as service-level agreement parameters, traffic flow attributes, and network parameters. Based on this information, the AP determines whether the traffic flow is suitable for single-user multiple-input multiple-output (SU-MIMO) communication, multi-user MIMO (MU-MIMO) communication, orthogonal frequency division multiple access (OFDMA) communication, or partial bandwidth MU-MIMO communication. The AP then initiates the transmission of the packets accordingly.
 
 
'''Abstract'''
 
Systems and methods for selectively enabling multi-user (MU) communications are disclosed. In some implementations, an access point (AP) obtains packets associated with a traffic flow, and obtains at least one of service-level agreement (SLA) parameters associated with the traffic flow, attributes of the traffic flow, or network parameters associated with a basic service set (BSS) that includes the AP. The AP provides an indication of whether the traffic flow is suitable for transmission as a single-user (SU) multiple-input multiple output (MIMO) (SU-MIMO) communication, as an MU-MIMO communication, as an orthogonal frequency division multiple access (OFDMA) communication, or as a partial bandwidth (BW) MU-MIMO communication to a WLAN subsystem of the AP, the indication being based on one or more of the SLA parameters, the traffic flow attributes, or the network parameters. The AP initiates transmission of the one or more packets based on the indication.
 
  
 
===DETECTION OF REMOTE FEATURE SUPPORT ([[US Patent Application 18189548. DETECTION OF REMOTE FEATURE SUPPORT simplified abstract|18189548]])===
 
===DETECTION OF REMOTE FEATURE SUPPORT ([[US Patent Application 18189548. DETECTION OF REMOTE FEATURE SUPPORT simplified abstract|18189548]])===
Line 772: Line 454:
 
Luis Fernando Brisson LOPES
 
Luis Fernando Brisson LOPES
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications. It explains that a source network device can send a request to a target network device through a core network. The request includes information elements within a transparent container that can be forwarded to the target network device by the core network. The source network device then receives a report from the target network device within another transparent container, which is part of the response to the request. The report indicates whether the individual information elements are present in the request as received by the target network device or if they are supported by the target network device. The source network device can identify the presence or support of the information elements by the target network device, an access and mobility management function (AMF), or both.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A source network device may transmit a request to a target network device via a core network (e.g., one or more access and mobility management functions (AMFs)). The source network device includes an indication of information elements within a source-to-target transparent container configured for forwarding to the target network device by the core network. The source network device may receive a report from the target network device within a target-to-source transparent container, the report part of a response to the request. The report may indicate whether individual information elements are present in the request as received at the target network device or are supported by the target network device, where the source network device may identify presence of the information elements or support of the information elements by the target network device, an AMF, or both.
 
  
 
===TECHNIQUES FOR WIRELESS COMMUNICATIONS WITH A MASTER NODE IN A MASTER CELL GROUP WITHOUT A CHANGE IN A SECONDARY NODE IN A SECONDARY CELL GROUP ([[US Patent Application 18043004. TECHNIQUES FOR WIRELESS COMMUNICATIONS WITH A MASTER NODE IN A MASTER CELL GROUP WITHOUT A CHANGE IN A SECONDARY NODE IN A SECONDARY CELL GROUP simplified abstract|18043004]])===
 
===TECHNIQUES FOR WIRELESS COMMUNICATIONS WITH A MASTER NODE IN A MASTER CELL GROUP WITHOUT A CHANGE IN A SECONDARY NODE IN A SECONDARY CELL GROUP ([[US Patent Application 18043004. TECHNIQUES FOR WIRELESS COMMUNICATIONS WITH A MASTER NODE IN A MASTER CELL GROUP WITHOUT A CHANGE IN A SECONDARY NODE IN A SECONDARY CELL GROUP simplified abstract|18043004]])===
Line 786: Line 462:
 
Jaspreet KAUR
 
Jaspreet KAUR
  
 
'''Brief explanation'''
 
The abstract describes techniques for wireless communications. A communication device, such as a user equipment (UE), can send a request message to a target master base station when there is a change in its state. The UE then receives a response message from the target master base station, which includes information about a secondary node (SN) and the UE's context reference. This information is shared by a source master base station (primary base station) to the target master base station. The SN information pertains to the same secondary base station that the UE was previously connected to when it was connected to the source master base station. The UE's context reference is stored at the secondary base station.
 
 
'''Abstract'''
 
Techniques for wireless communications are described. A communication device, for example, a user equipment (UE) may transmit a request message to a target master base station based on a change in a state of the UE, and receive a response message from the target master base station based on the transmitted request message from the UE. The response message may include secondary node (SN) information and UE context reference shared to the target master base station from a source master base station (also referred to as a primary base station). The SN information corresponding to the same secondary base station associated with the UE while previously connected to the source master base station. The UE context reference may be stored at the same secondary base station.
 
  
 
===MOBILE NODE MEASUREMENT FOR NODE DISCOVERY OR INTERFERENCE MANAGEMENT ([[US Patent Application 17659761. MOBILE NODE MEASUREMENT FOR NODE DISCOVERY OR INTERFERENCE MANAGEMENT simplified abstract|17659761]])===
 
===MOBILE NODE MEASUREMENT FOR NODE DISCOVERY OR INTERFERENCE MANAGEMENT ([[US Patent Application 17659761. MOBILE NODE MEASUREMENT FOR NODE DISCOVERY OR INTERFERENCE MANAGEMENT simplified abstract|17659761]])===
Line 800: Line 470:
 
Qian ZHANG
 
Qian ZHANG
  
 
'''Brief explanation'''
 
The present disclosure relates to wireless communication. It describes a system where a central network entity sends a configuration of transmission windows to a network node, which is associated with a mobility condition. These transmission windows are used for discovering or measuring interference between neighboring network nodes. The set of neighbor network nodes is selected based on the mobility condition. The network node then sends back information about any discovered neighbor network nodes to the central network entity. Based on this information, the central network entity can communicate accordingly.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a central network entity may transmit, to a network node associated with a mobility condition, a configuration of a set of transmission windows, for a set of neighbor network nodes, associated with discovery or inter-node interference measurement, wherein the set of neighbor network nodes is selected based at least in part on the mobility condition. The central network entity may receive, from the network node, an indication of one or more discovered neighbor network nodes of the set of neighbor network nodes. The central network entity may communicate based at least in part on the indication of the one or more discovered neighbor network nodes. Numerous other aspects are described.
 
  
 
===MEASUREMENT TIMING CONFIGURATION INDICATIONS BETWEEN NETWORK NODES ([[US Patent Application 17659444. MEASUREMENT TIMING CONFIGURATION INDICATIONS BETWEEN NETWORK NODES simplified abstract|17659444]])===
 
===MEASUREMENT TIMING CONFIGURATION INDICATIONS BETWEEN NETWORK NODES ([[US Patent Application 17659444. MEASUREMENT TIMING CONFIGURATION INDICATIONS BETWEEN NETWORK NODES simplified abstract|17659444]])===
Line 814: Line 478:
 
Navid ABEDINI
 
Navid ABEDINI
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a first network node receives information from a second network node about a neighboring cell. This information includes a timing configuration for measuring the performance of the cell. Based on this information, the first network node adjusts the configuration of the cell. The abstract mentions that there are other aspects of the disclosure, but does not provide further details.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first network node may receive, from a second network node, a neighbor information communication comprising a measurement timing configuration indication associated with a cell served by the first network node, the cell having a first cell configuration. The first network node may apply a second configuration to the cell based at least in part on the measurement timing configuration indication. Numerous other aspects are described.
 
  
 
===SELECTING A NEIGHBOR NODE IN A WIRELESS MULTI-HOP NETWORK USING A COST PARAMETER ([[US Patent Application 18341096. SELECTING A NEIGHBOR NODE IN A WIRELESS MULTI-HOP NETWORK USING A COST PARAMETER simplified abstract|18341096]])===
 
===SELECTING A NEIGHBOR NODE IN A WIRELESS MULTI-HOP NETWORK USING A COST PARAMETER ([[US Patent Application 18341096. SELECTING A NEIGHBOR NODE IN A WIRELESS MULTI-HOP NETWORK USING A COST PARAMETER simplified abstract|18341096]])===
Line 828: Line 486:
 
Naeem AKL
 
Naeem AKL
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a child node in a network receives information from a neighboring node about the cost of selecting that node for certain procedures. The child node then uses this information to perform handover, cell selection, or cell reselection procedures.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a child node in a wireless multi-hop network may receive a cost parameter from a neighbor node in the wireless multi-hop network, wherein the cost parameter indicates a cost, due to an operating mode of the neighbor node, of selecting the neighbor node as a target node for a handover procedure, a cell selection procedure, or a cell reselection procedure. The child node may perform the handover procedure, the cell selection procedure, or the cell reselection procedure based at least in part on the cost parameter. Numerous other aspects are provided.
 
  
 
===JOINT CELL SELECTION FOR DUAL SUBSCRIPTION DUAL ACTIVE (DSDA) OPERATION ([[US Patent Application 17724205. JOINT CELL SELECTION FOR DUAL SUBSCRIPTION DUAL ACTIVE (DSDA) OPERATION simplified abstract|17724205]])===
 
===JOINT CELL SELECTION FOR DUAL SUBSCRIPTION DUAL ACTIVE (DSDA) OPERATION ([[US Patent Application 17724205. JOINT CELL SELECTION FOR DUAL SUBSCRIPTION DUAL ACTIVE (DSDA) OPERATION simplified abstract|17724205]])===
Line 842: Line 494:
 
Akash KUMAR
 
Akash KUMAR
  
 
'''Brief explanation'''
 
The abstract describes a method of wireless communication where a user device switches from one cell to another. This switching, known as handover, is performed for two different subscriptions. The first handover is from a first cell to a second cell, while the second handover is from a third cell to a fourth cell. The decision to perform these handovers is based on the difference in signal strength between the first and third cells exceeding a certain threshold, and the difference in signal strength between the second and fourth cells being equal to or less than the same threshold.
 
 
'''Abstract'''
 
A method of wireless communication performed by a user equipment (UE) may include: performing, for a first subscription, a first handover from a first cell to a second cell; and performing, for a second subscription, a second handover from a third cell to a fourth cell. In some aspects, at least one of the performing the first handover or the performing the second handover is based on: a difference in signal strength between the first cell and the third cell exceeding a first threshold; and a difference in signal strength between the second cell and the fourth cell being equal to or less than the first threshold.
 
  
 
===UPLINK TRANSMISSION DURING A CELL SLEEP MODE OPERATION ([[US Patent Application 17659439. UPLINK TRANSMISSION DURING A CELL SLEEP MODE OPERATION simplified abstract|17659439]])===
 
===UPLINK TRANSMISSION DURING A CELL SLEEP MODE OPERATION ([[US Patent Application 17659439. UPLINK TRANSMISSION DURING A CELL SLEEP MODE OPERATION simplified abstract|17659439]])===
Line 856: Line 502:
 
Hung Dinh LY
 
Hung Dinh LY
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device (UE) receives information about the uplink resources of a cell from a network entity. The UE also receives an indication that the cell is in sleep mode, during which only a subset of the uplink resources are available. Based on this information, the UE can transmit communications using the available uplink resources while the cell is in sleep mode. The abstract mentions that there are other aspects of the disclosure that are described but not specified in detail.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a network entity, a configuration of uplink resources associated with a cell. The UE may receive an indication that the cell is in a sleep mode, wherein at least a subset of the uplink resources occurs when the cell is in the sleep mode. The UE may transmit one or more communications based at least in part on the configuration of the uplink resources associated with the cell and the indication that the cell is in the sleep mode. Numerous other aspects are described.
 
  
 
===DISCONTINUOUS RECEPTION FOR CONFIGURED GRANT/SEMI-PERSISTENT SCHEDULING ([[US Patent Application 17724373. DISCONTINUOUS RECEPTION FOR CONFIGURED GRANT/SEMI-PERSISTENT SCHEDULING simplified abstract|17724373]])===
 
===DISCONTINUOUS RECEPTION FOR CONFIGURED GRANT/SEMI-PERSISTENT SCHEDULING ([[US Patent Application 17724373. DISCONTINUOUS RECEPTION FOR CONFIGURED GRANT/SEMI-PERSISTENT SCHEDULING simplified abstract|17724373]])===
Line 870: Line 510:
 
Lianghai Ji
 
Lianghai Ji
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communication. It explains that a user equipment (UE) can identify a specific time period during which it is set to receive communication grants. These grants are associated with a certain type of grant format. The UE also determines if the grants include a feedback process identifier that is higher than a certain threshold value. If it exceeds the threshold, the UE will maintain a power-saving state for a discontinuous reception procedure related to the feedback process during that time period.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communication are described. A user equipment (UE) may identify a time period during which the UE is configured to receive grants scheduling communications for the UE, wherein the grants are associated with a first grant format type. The UE may determine that the grants include a feedback process identifier exceeding a threshold value. The UE may maintain a power saving state of a discontinuous reception procedure for a feedback process associated with the feedback process identifier during the time period based at least in part on the feedback process identifier exceeding the threshold value.
 
  
 
===CELL ACTIVE TIME CONFIGURATION ([[US Patent Application 17659813. CELL ACTIVE TIME CONFIGURATION simplified abstract|17659813]])===
 
===CELL ACTIVE TIME CONFIGURATION ([[US Patent Application 17659813. CELL ACTIVE TIME CONFIGURATION simplified abstract|17659813]])===
Line 884: Line 518:
 
Hung Dinh LY
 
Hung Dinh LY
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device receives signaling from a network entity about the configuration of wake up occasions for the entity's active state. The user device then sends a wake up signal to transition the entity from an inactive to an active state based on this configuration. The user device also receives signaling about the duration of time the entity will remain in the active state.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive, from a network entity, first signaling identifying a configuration for a set of wake up occasions associated with an active state of the network entity. The UE may transmit, to the network entity, a wake up signal to transition the network entity from an inactive state to the active state based on the configuration for the set of wake up occasions. The UE may receive, from a network entity, second signaling identifying a cell active time during which the network entity remains in the active state. Numerous other aspects are described.
 
  
 
===USER EQUIPMENT ASSISTANCE INFORMATION AND BUFFER STATUS REPORT EXTENSION FOR GREEN NETWORKS ([[US Patent Application 17721201. USER EQUIPMENT ASSISTANCE INFORMATION AND BUFFER STATUS REPORT EXTENSION FOR GREEN NETWORKS simplified abstract|17721201]])===
 
===USER EQUIPMENT ASSISTANCE INFORMATION AND BUFFER STATUS REPORT EXTENSION FOR GREEN NETWORKS ([[US Patent Application 17721201. USER EQUIPMENT ASSISTANCE INFORMATION AND BUFFER STATUS REPORT EXTENSION FOR GREEN NETWORKS simplified abstract|17721201]])===
Line 898: Line 526:
 
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 send messages indicating a time period before expected traffic is available for transmission, as well as the size of the expected traffic. These messages can include UE assistance information (UAI) or buffer status report (BSR) messages. The UE then receives a response message indicating that a network entity should enter a sleep mode during a second time period based on the first time period and the size of the expected traffic. The network entity can enter sleep mode based on this information.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may transmit one or more messages indicating a first time period having a duration prior to expected traffic being available for transmission at the UE, and indicating a size associated with the expected traffic (e.g., a quantity of bits). In some examples, the one or more messages may include a UE assistance information (UAI) message or a buffer status report (BSR) message. The UE may receive a response message based on the one or more messages indicating that a network entity is to enter a sleep mode during a second time period based on the first time period and the size associated with the expected traffic. In some examples, the network entity may enter the sleep mode based on the first time period and the size associated with the expected traffic.
 
  
 
===RADIO LINK MONITORING AND BEAM FAILURE DETECTION FOR ENERGY SAVING MODES ([[US Patent Application 17724153. RADIO LINK MONITORING AND BEAM FAILURE DETECTION FOR ENERGY SAVING MODES simplified abstract|17724153]])===
 
===RADIO LINK MONITORING AND BEAM FAILURE DETECTION FOR ENERGY SAVING MODES ([[US Patent Application 17724153. RADIO LINK MONITORING AND BEAM FAILURE DETECTION FOR ENERGY SAVING MODES simplified abstract|17724153]])===
Line 912: Line 534:
 
Ahmed Attia Abotabl
 
Ahmed Attia Abotabl
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive a message indicating that a network entity is operating in an energy saving mode. The UE also receives information about different sets of parameters for a radio link monitoring (RLM) operation, each associated with a different energy saving mode. The UE uses the parameters from the first set to perform the RLM operation while the network entity is in the first energy saving mode. If the network entity switches to a different energy saving mode, the UE uses the parameters from the second set to perform the RLM operation.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a first message indicating that a network entity, in wireless communication with the UE, is operating in a first energy saving mode of multiple energy saving modes. The UE may receive information indicating multiple sets of parameters for a radio link monitoring (RLM) operation, each of the sets of parameters being associated with a different energy saving mode. The UE may perform the RLM operation using one or more parameters of a first set of parameters (e.g., a maximum beam failure instance count parameter, one or more threshold parameters, and other parameters) associated with the first energy saving mode. The may use a second set of parameters to perform the RLM operation in response to the network entity switching from operating in the first energy saving mode to operating in the second energy saving mode.
 
  
 
===TIMING CONTROL FOR INTER-USER EQUIPMENT MEASUREMENTS INVOLVED IN NON-TERRESTRIAL NETWORKS ([[US Patent Application 17659166. TIMING CONTROL FOR INTER-USER EQUIPMENT MEASUREMENTS INVOLVED IN NON-TERRESTRIAL NETWORKS simplified abstract|17659166]])===
 
===TIMING CONTROL FOR INTER-USER EQUIPMENT MEASUREMENTS INVOLVED IN NON-TERRESTRIAL NETWORKS ([[US Patent Application 17659166. TIMING CONTROL FOR INTER-USER EQUIPMENT MEASUREMENTS INVOLVED IN NON-TERRESTRIAL NETWORKS simplified abstract|17659166]])===
Line 926: Line 542:
 
Huilin XU
 
Huilin XU
  
 
'''Brief explanation'''
 
The abstract describes a method for a first user equipment (UE) to obtain a parameter related to the timing of measuring the Channel State Information (CLI) between itself and a second UE. The first UE then uses this parameter to avoid receiving certain data from the network during the measurement timing, as it may overlap with the measurement resources.
 
 
'''Abstract'''
 
A first UE may obtain at least one parameter associated with an Rx timing of one or more CLI measurement resources. The one or more CLI measurement resources may be associated with CLI between the first UE and at least one second UE. The first UE may further refrain from receiving one or more serving DL channels or resources from a network node during the Rx timing based on the at least one parameter. The one or more serving DL channels or resources may overlap with at least one symbol of the one or more CLI measurement resources.
 
  
 
===DYNAMIC SYNCHRONIZATION SIGNAL BLOCKS FOR SIDELINK COMMUNICATION ([[US Patent Application 17659293. DYNAMIC SYNCHRONIZATION SIGNAL BLOCKS FOR SIDELINK COMMUNICATION simplified abstract|17659293]])===
 
===DYNAMIC SYNCHRONIZATION SIGNAL BLOCKS FOR SIDELINK COMMUNICATION ([[US Patent Application 17659293. DYNAMIC SYNCHRONIZATION SIGNAL BLOCKS FOR SIDELINK COMMUNICATION simplified abstract|17659293]])===
Line 940: Line 550:
 
Chih-Hao LIU
 
Chih-Hao LIU
  
 
'''Brief explanation'''
 
This abstract describes a method of wireless communication between two user equipment (UE) devices. The first UE transmits a configuration to the second UE, indicating certain parameters related to a sidelink synchronization signal block (S-SSB) burst. These parameters can include the length of the S-SSB burst, a quasi-colocation (QCL) index associated with the burst, or a first QCL order associated with the burst. Based on this configuration, the first UE then transmits the S-SSB burst to the second UE.
 
 
'''Abstract'''
 
Wireless communications systems, apparatuses, and methods are provided. A method of wireless communication performed by a first sidelink user equipment (UE) may include transmitting, to a second sidelink UE, a configuration indicating at least one of a length associated with a sidelink synchronization signal block (S-SSB) burst, a quasi-colocation (QCL) index associated with the S-SSB burst, or a first QCL order associated with the S-SSB burst and transmitting, to the second sidelink UE, the S-SSB burst based on the at least one of the length associated with the S-SSB burst, the QCL index associated with the S-SSB burst, or the first QCL order associated with the S-SSB burst.
 
  
 
===TRANSMITTING SYNCHRONIZATION SIGNAL BLOCK VIA RECONFIGURABLE INTELLIGENT SURFACES ([[US Patent Application 18042590. TRANSMITTING SYNCHRONIZATION SIGNAL BLOCK VIA RECONFIGURABLE INTELLIGENT SURFACES simplified abstract|18042590]])===
 
===TRANSMITTING SYNCHRONIZATION SIGNAL BLOCK VIA RECONFIGURABLE INTELLIGENT SURFACES ([[US Patent Application 18042590. TRANSMITTING SYNCHRONIZATION SIGNAL BLOCK VIA RECONFIGURABLE INTELLIGENT SURFACES simplified abstract|18042590]])===
Line 954: Line 558:
 
Yu ZHANG
 
Yu ZHANG
  
 
'''Brief explanation'''
 
This abstract describes methods, systems, and devices for wireless communications. The techniques discussed involve the use of reconfigurable intelligent surfaces (RISs) in initial access procedures. The base station can transmit synchronization signal blocks (SSBs) using different synchronization raster grids, depending on whether the user equipment (UE) supports RISs or not. Additionally, different types of SSBs can be transmitted for UEs with and without RIS support. The UE can search for and receive SSBs based on its capability.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. Generally, the described techniques provide for performing initial access procedures including transmitting or receiving synchronization signal blocks (SSBs) based on a capability of a user equipment (UE) to use reconfigurable intelligent surfaces (RISs). In some examples, a base station may transmit SSBs using two synchronization raster grids. For example, the base station may transmit SSBs on a first synchronization raster grid for UEs that do not support RISs and on a second synchronization raster grid for UEs that support RISs. In some examples, a base station may transmit different types of SSBs. For example, a base station may transmit a first type of SSB for UEs that do not support RISs and a second type of SSB for UEs that support RISs. A UE may search for and receive SSBs according to a capability of the UE.
 
  
 
===GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NON-TERRESTRIAL NETWORK ([[US Patent Application 17935851. GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NON-TERRESTRIAL NETWORK simplified abstract|17935851]])===
 
===GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NON-TERRESTRIAL NETWORK ([[US Patent Application 17935851. GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NON-TERRESTRIAL NETWORK simplified abstract|17935851]])===
Line 968: Line 566:
 
Liangping MA
 
Liangping MA
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device (UE) can determine and apply frequency pre-compensation techniques after updating its location or velocity. This allows the UE to transmit an uplink signal using a frequency pre-compensation that combines closed-loop and open-loop methods. The abstract mentions that there are other aspects of the disclosure that are described but does not provide specific details.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may determine, after an update to a location or a velocity of the UE, a closed-loop frequency pre-compensation and an open-loop frequency pre-compensation. The UE may transmit, after the update to the location or the velocity of the UE, an uplink signal using a frequency pre-compensation that is based at least in part on the closed-loop frequency pre-compensation and the open-loop frequency pre-compensation. Numerous other aspects are described.
 
  
 
===PROXIMITY-BASED PRIORITIZATION OF UPLINK AND DOWNLINK POSITIONING RESOURCES ([[US Patent Application 18043855. PROXIMITY-BASED PRIORITIZATION OF UPLINK AND DOWNLINK POSITIONING RESOURCES simplified abstract|18043855]])===
 
===PROXIMITY-BASED PRIORITIZATION OF UPLINK AND DOWNLINK POSITIONING RESOURCES ([[US Patent Application 18043855. PROXIMITY-BASED PRIORITIZATION OF UPLINK AND DOWNLINK POSITIONING RESOURCES simplified abstract|18043855]])===
Line 982: Line 574:
 
Alexandros MANOLAKOS
 
Alexandros MANOLAKOS
  
 
'''Brief explanation'''
 
The abstract describes different techniques for wireless communication. One technique involves a user equipment (UE) receiving information from a network entity about positioning reference signal (PRS) resources and from a base station about sounding reference signal (SRS) resources. The UE then selects PRS resources that meet a proximity requirement with at least one SRS resource and uses them for UE Rx-Tx measurements. Another technique involves a network entity transmitting information to a UE about PRS resources and specifying the number of PRS resources to be used by the UE for UE Rx-Tx measurements.
 
 
'''Abstract'''
 
Disclosed are various techniques for wireless communication. In an aspect, a user equipment (UE) may receive, from a network entity, first information identifying positioning reference signal (PRS) resources. The UE may receive, from a base station, second information identifying sounding reference signal (SRS) resources. The UE may select, from PRS resources identified by the first information, PRS resources that satisfy a PRS-SRS proximity requirement with regard to at least one SRS resource identified by the second information. The UE may use the selected PRS resources at least for performing UE Rx-Tx measurements. In another aspect, a network entity may transmit, to a UE, first information identifying PRS resources. The network entity may transmit, to the UE, second information specifying a number of PRS resources to be used by the UE at least for performing UE Rx-Tx measurements.
 
  
 
===PANEL-SPECIFIC SLOT FORMAT INDICATION ([[US Patent Application 18006718. PANEL-SPECIFIC SLOT FORMAT INDICATION simplified abstract|18006718]])===
 
===PANEL-SPECIFIC SLOT FORMAT INDICATION ([[US Patent Application 18006718. PANEL-SPECIFIC SLOT FORMAT INDICATION simplified abstract|18006718]])===
Line 996: Line 582:
 
Fang YUAN
 
Fang YUAN
  
 
'''Brief explanation'''
 
This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can perform multi-panel communications with a base station using a first panel and a second panel. The base station transmits indications of different slot formats for the first and second panels, with at least one symbol having a different communication direction. The slot formats can be indicated in a common configuration or a dedicated configuration, or in a downlink control information (DCI) message. The UE and base station can then communicate using the first and second panels according to the corresponding slot format.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may identify a configuration to perform multi-panel communications with a base station using a first panel and a second panel of the UE. The base station may transmit indications of a first slot format and a second slot format for the first panel and the second panel for a time period, at least one symbol for the first slot format having a different communication direction than for the second slot format. The base station may indicate the slot formats in a common configuration and a dedicated configuration for the first panel and the second panel. Additionally or alternatively, the base station may indicate the slot formats in a corresponding downlink control information (DCI) message. The UE and the base station may communicate using the first panel and second panel according to the corresponding slot format.
 
  
 
===MULTI-SHARED CHANNEL SCHEDULING FOR EXTENDED REALITY ([[US Patent Application 18179709. MULTI-SHARED CHANNEL SCHEDULING FOR EXTENDED REALITY simplified abstract|18179709]])===
 
===MULTI-SHARED CHANNEL SCHEDULING FOR EXTENDED REALITY ([[US Patent Application 18179709. MULTI-SHARED CHANNEL SCHEDULING FOR EXTENDED REALITY simplified abstract|18179709]])===
Line 1,010: Line 590:
 
Huilin Xu
 
Huilin Xu
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive a message with parameters for time domain resource allocation (TDRA) information for a certain number of shared channels. The UE can then receive another message scheduling a set of shared channels, which exceeds the previous number. This set includes a subset of shared channels from the first message and additional shared channels. The UE can determine new parameters for this second subset based on the parameters from the first message. The UE and a network entity can then use the first set of parameters for the first subset and the second set of parameters for the second subset to communicate.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a first message indicating a first set of parameters associated with time domain resource allocation (TDRA) information for a first quantity of shared channels. The UE may receive a second message (e.g., downlink control information (DCI)) scheduling a set of shared channels, a second quantity of the set of shared channels exceeding the first quantity. The set of shared channels may include a first subset of shared channels corresponding to the first quantity, and a second subset of shared channels including additional shared channels. In addition, the UE may determine a second set of parameters for the second subset based on the first set of parameters, where the UE and a network entity may communicate the first subset using the first set of parameters and the second subset using the second set of parameters.
 
  
 
===TECHNIQUES FOR CONFIGURING USER EQUIPMENT SUPPORTED CARRIER AGGREGATION BAND COMBINATIONS ([[US Patent Application 18044133. TECHNIQUES FOR CONFIGURING USER EQUIPMENT SUPPORTED CARRIER AGGREGATION BAND COMBINATIONS simplified abstract|18044133]])===
 
===TECHNIQUES FOR CONFIGURING USER EQUIPMENT SUPPORTED CARRIER AGGREGATION BAND COMBINATIONS ([[US Patent Application 18044133. TECHNIQUES FOR CONFIGURING USER EQUIPMENT SUPPORTED CARRIER AGGREGATION BAND COMBINATIONS simplified abstract|18044133]])===
Line 1,024: Line 598:
 
Nitin PANT
 
Nitin PANT
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device (UE) can transmit information about the bands it can operate on. The UE can transmit two sets of band configurations, and then receive information about a band configuration that is not included in either set. The UE can then communicate using this band configuration.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit first capability information indicating a first set of band configurations. The UE may transmit, after the transmission of the first capability information, second capability information indicating a second set of band configurations. The UE may receive information indicating a band configuration, wherein the band configuration that is not included in at least one of the first set of band configurations or the second set of band configurations. The UE may communicate using the band configuration. Numerous other aspects are provided.
 
  
 
===BEAM ACTIVATION BASED ON PCI ([[US Patent Application 18008397. BEAM ACTIVATION BASED ON PCI simplified abstract|18008397]])===
 
===BEAM ACTIVATION BASED ON PCI ([[US Patent Application 18008397. BEAM ACTIVATION BASED ON PCI simplified abstract|18008397]])===
Line 1,038: Line 606:
 
Yan ZHOU
 
Yan ZHOU
  
 
'''Brief explanation'''
 
The abstract describes methods and devices for wireless communication. The apparatus, which can be a user equipment (UE) or a cell/base station, receives a Downlink Control Information (DCI) from a first cell among multiple cells. The DCI indicates various parameters such as TCI states, Physical Layer Reference Signal (PL RS) IDs, and spatial relation information IDs, which are associated with Physical Cell Identifiers (PCIs) of each cell. The apparatus determines the PCI of the first cell based on the received parameters and communicates with the first cell using a specific beam associated with the determined PCI.
 
 
'''Abstract'''
 
The present disclosure relates to methods and devices for wireless communication including an apparatus, e.g., a UE and/or a cell or base station. In one aspect, the apparatus can receive DCI from a first cell of a plurality of cells, the DCI indicating at least one of a plurality of TCI states, a plurality of PL RS IDs, or a plurality of spatial relation information IDs which correspond to one or more PCIs, each of the one or more PCIs being associated with one cell. The apparatus can also determine a first PCI associated with the first cell based on at least one of a first TCI state, a first PL RS ID, or a first spatial relation information ID which correspond to the first PCI. Further, the apparatus can communicate with the first cell over a first beam based on the determined first PCI.
 
  
 
===NETWORK TIME SECTORING ([[US Patent Application 17722641. NETWORK TIME SECTORING simplified abstract|17722641]])===
 
===NETWORK TIME SECTORING ([[US Patent Application 17722641. NETWORK TIME SECTORING simplified abstract|17722641]])===
Line 1,052: Line 614:
 
Nicholas KUCHAREWSKI
 
Nicholas KUCHAREWSKI
  
 
'''Brief explanation'''
 
This disclosure presents methods, devices, and systems for allocating resources for wireless communications. It focuses on mapping wireless communication devices to specific time sectors that occur periodically and do not overlap with other time sectors. In one scenario, each wireless station in a basic service set is assigned to a time sector based on the attributes of the set. This ensures that communication between a station and its access point can only happen within the assigned time sector(s). In another scenario, each access point in a multi-AP environment is mapped to a time sector based on the attributes of the environment. This restricts communication between an access point and its associated stations to the assigned time sector(s).
 
 
'''Abstract'''
 
This disclosure provides methods, devices and systems for provisioning resources for wireless communications. Some implementations more specifically relate to provisioning such resources based on a mapping of wireless communication devices to a number of time sectors that occur periodically and do not overlap other time sectors. In some aspects, each wireless stations (STAs) in a basic service set (BSS) may be mapped to a respective time sector based on attributes associated with the BSS so that communications between a STA and its associated access point (AP) can only occur within the respective time sector(s) to which the STA is mapped. In some other aspects, each AP in a multi-AP environment may be mapped to a respective time sector based on attributes associated with the multi-AP environment so that communications between an AP and its associated STAs can only occur within the respective time sector(s) to which the AP is mapped.
 
  
 
===PERIODIC SCHEDULING OF MULTIPLE UNIQUE SETS OF TRANSPORT BLOCKS ([[US Patent Application 18167311. PERIODIC SCHEDULING OF MULTIPLE UNIQUE SETS OF TRANSPORT BLOCKS simplified abstract|18167311]])===
 
===PERIODIC SCHEDULING OF MULTIPLE UNIQUE SETS OF TRANSPORT BLOCKS ([[US Patent Application 18167311. PERIODIC SCHEDULING OF MULTIPLE UNIQUE SETS OF TRANSPORT BLOCKS simplified abstract|18167311]])===
Line 1,066: Line 622:
 
Huilin Xu
 
Huilin Xu
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) receives messages that provide configurations for communications between the UE and a network entity. The UE also receives a control message that activates one or more of these configurations and schedules multiple instances of the communications. Once the control message is received, the UE communicates the multiple instances according to the activated configuration, with each instance containing a different set of transport blocks.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. The method may include a user equipment (UE) receiving one or more first messages that indicate one or more configurations for communications between the UE and a network entity during a plurality of periodic communication occasions. The method may also include receiving a control message that activates at least one of the one or more configurations and schedules multiple instances of the communications. Upon receiving the control message, the UE may communicate the multiple instances in accordance with the at least one of the one or more configurations, each of the multiple instances including a different set of transport blocks.
 
  
 
===QUALITY OF SERVICE (QOS) FOR UPLINK ACCESS IN A WIRELESS LOCAL AREA NETWORK (WLAN) ([[US Patent Application 18183787. QUALITY OF SERVICE (QOS) FOR UPLINK ACCESS IN A WIRELESS LOCAL AREA NETWORK (WLAN) simplified abstract|18183787]])===
 
===QUALITY OF SERVICE (QOS) FOR UPLINK ACCESS IN A WIRELESS LOCAL AREA NETWORK (WLAN) ([[US Patent Application 18183787. QUALITY OF SERVICE (QOS) FOR UPLINK ACCESS IN A WIRELESS LOCAL AREA NETWORK (WLAN) simplified abstract|18183787]])===
Line 1,080: Line 630:
 
Alfred ASTERJADHI
 
Alfred ASTERJADHI
  
 
'''Brief explanation'''
 
This disclosure presents a system for managing uplink access in a wireless local area network. It involves a station (STA) informing an access point (AP) about the quality of service (QoS) parameters for a traffic flow. The AP then controls the uplink resources to meet these QoS parameters. The AP can choose from different access modes, such as single user (SU) access mode, uplink multi-user (UL-MU) scheduled access mode, multi-user enhanced distributed controlled access (MU EDCA) access mode, or low latency (LL) access mode. If the UL-MU scheduled access mode and the MU EDCA access mode are not sufficient to meet the uplink QoS parameters, the AP can instruct the STA to use either the SU access mode or the LL access mode.
 
 
'''Abstract'''
 
This disclosure provides systems, devices, apparatus and methods, including computer programs encoded on storage media, for managing uplink access in a wireless local area network. A station (STA) may inform an access point (AP) of uplink quality of service (QoS) parameters for a traffic flow from the STA. The AP may control uplink resources to satisfy the QoS parameters. For example, the AP may select from among different access modes (including a single user (SU) access mode, an uplink multi-user (UL-MU) scheduled access mode, a multi-user enhanced distributed controlled access (MU EDCA) access mode, or a low latency (LL) access mode). The AP may cause the STA to use a SU access mode or the LL access mode if the UL-MU scheduled access mode and the MU EDCA access mode are not sufficient to satisfy the uplink QoS parameters for the traffic flow.
 
  
 
===CROSS-CARRIER SCHEDULING ENHANCEMENTS IN NEW RADIO (NR) ([[US Patent Application 18114000. CROSS-CARRIER SCHEDULING ENHANCEMENTS IN NEW RADIO (NR) simplified abstract|18114000]])===
 
===CROSS-CARRIER SCHEDULING ENHANCEMENTS IN NEW RADIO (NR) ([[US Patent Application 18114000. CROSS-CARRIER SCHEDULING ENHANCEMENTS IN NEW RADIO (NR) simplified abstract|18114000]])===
Line 1,094: Line 638:
 
Peter Pui Lok Ang
 
Peter Pui Lok Ang
  
 
'''Brief explanation'''
 
The abstract describes methods, systems, and devices for wireless communications. It introduces the concept of cross-carrier scheduling, where a base station schedules downlink data transmissions for user equipment (UE). The UE identifies a minimum scheduling delay and receives a downlink grant on a first carrier component (CC). It then determines the slot in which the downlink data transmission will be received, ensuring that the minimum scheduling delay is met. The UE receives the downlink data transmission in the identified slot. The abstract also mentions the possibility of alternating between long and short minimum scheduling delays, as well as switching between cross-carrier and self-scheduling modes.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A base station may implement cross-carrier scheduling. A user equipment (UE) may identify a minimum scheduling delay and may receive a downlink grant on a first CC. The UE may further identify the slot in which a downlink data transmission corresponding to the downlink grant will be received, and may identify the slot such that the minimum scheduling delay is satisfied. The UE may the receive the downlink data transmission, as indicated in the downlink grant, in the identified slot. In some examples, the UE and the base station may alternate between a long minimum scheduling delay and a short minimum scheduling delay. In some examples, the UE and the base station may alternate between a cross-carrier mode, and a self-scheduling mode.
 
  
 
===CONFIGURATION FOR GROUP-COMMON DOWNLINK CHANNELS WITH REPETITIONS ([[US Patent Application 18340746. CONFIGURATION FOR GROUP-COMMON DOWNLINK CHANNELS WITH REPETITIONS simplified abstract|18340746]])===
 
===CONFIGURATION FOR GROUP-COMMON DOWNLINK CHANNELS WITH REPETITIONS ([[US Patent Application 18340746. CONFIGURATION FOR GROUP-COMMON DOWNLINK CHANNELS WITH REPETITIONS simplified abstract|18340746]])===
Line 1,108: Line 646:
 
Le LIU
 
Le LIU
  
 
'''Brief explanation'''
 
This abstract describes methods, systems, and devices for wireless communications. It explains that a user equipment (UE) can receive a configuration for a group-common physical downlink shared channel (PDSCH), which is repeated for a certain number of times. The UE then determines this number of repetitions and monitors the group-common PDSCH accordingly. The group-common PDSCH can have either a semi-static repetition scheme, where the number of repetitions is indicated by a group aggregation factor, or a dynamic repetition scheme, where the number of repetitions is indicated by a group repetition number. The configuration for the repeated group-common PDSCH can also include gaps between each repetition, and the UE can transmit acknowledgment feedback for each repetition of the group-common PDSCH.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a configuration for a group-common physical downlink shared channel (PDSCH), where the group-common PDSCH is repeated for a number of repetitions. Accordingly, the UE may determine this number of repetitions and then monitor for the group-common PDSCH based on the number of repetitions. In some implementations, the group-common PDSCH may include a semi-static repetition scheme, where the number of repetitions is indicated via a group aggregation factor. Additionally or alternatively, the group-common PDSCH may include a dynamic repetition scheme, where the number of repetitions is indicated via a group repetition number. Additionally, the techniques described herein may enable the configuration for the repeated group-common PDSCH to include gaps between each repetition of the group-common PDSCH and for the UE to transmit acknowledgment feedback for the repetitions of the group-common PDSCH.
 
  
 
===METHODS FOR PROTECTING SIDELINK FEEDBACK INFORMATION ([[US Patent Application 17659303. METHODS FOR PROTECTING SIDELINK FEEDBACK INFORMATION simplified abstract|17659303]])===
 
===METHODS FOR PROTECTING SIDELINK FEEDBACK INFORMATION ([[US Patent Application 17659303. METHODS FOR PROTECTING SIDELINK FEEDBACK INFORMATION simplified abstract|17659303]])===
Line 1,122: Line 654:
 
Anantharaman BALASUBRAMANIAN
 
Anantharaman BALASUBRAMANIAN
  
 
'''Brief explanation'''
 
This abstract describes a method for wireless communication between two user equipment (UE) devices. The first UE receives control information from the second UE, which schedules a shared channel for communication. The first UE then determines a sequence for providing feedback for this channel, based on certain parameters. Finally, the first UE transmits this sequence as feedback via a separate feedback channel.
 
 
'''Abstract'''
 
Certain aspects of the present disclosure provide a method for wireless communication at a first user equipment (UE). The method generally includes receiving, from a second UE, sidelink control information (SCI) scheduling a physical sidelink shared channel (PSSCH), determining a sequence for providing feedback for the PSSCH, from a plurality of possible sequences, based on one or more parameters, and transmitting the sequence via a physical sidelink feedback channel (PSFCH) as feedback for the PSSCH.
 
  
 
===AVOIDING COLLISIONS WITH REFERENCE SIGNALS ([[US Patent Application 18182267. AVOIDING COLLISIONS WITH REFERENCE SIGNALS simplified abstract|18182267]])===
 
===AVOIDING COLLISIONS WITH REFERENCE SIGNALS ([[US Patent Application 18182267. AVOIDING COLLISIONS WITH REFERENCE SIGNALS simplified abstract|18182267]])===
Line 1,136: Line 662:
 
Hamed PEZESHKI
 
Hamed PEZESHKI
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user equipment (UE) receives a configuration for a semi-persistent scheduling (SPS) of data transmission. This configuration helps match the data transmission rate around specific resource elements used for a cell-specific reference signal pattern. The UE then receives an SPS communication based on this configuration. The abstract mentions that there are numerous other aspects provided, but does not provide specific details about them.
 
 
'''Abstract'''
 
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a configuration for a semi-persistent scheduling (SPS) of a data transmission that rate matches the data transmission around one or more resource elements that are to be used for a cell-specific reference signal pattern. The UE may receive an SPS communication based at least in part on the configuration. Numerous other aspects are provided.
 
  
 
===MULTIPLEXING OF PUR AND SRS ([[US Patent Application 18042099. MULTIPLEXING OF PUR AND SRS simplified abstract|18042099]])===
 
===MULTIPLEXING OF PUR AND SRS ([[US Patent Application 18042099. MULTIPLEXING OF PUR AND SRS simplified abstract|18042099]])===
Line 1,150: Line 670:
 
Jing LEI
 
Jing LEI
  
 
'''Brief explanation'''
 
The abstract describes a technique for configuring sounding reference signals (SRS) resources for idle or inactive user equipment (UE) and multiplexing SRS with small data transmission on preconfigured uplink resources (PUR). The method involves the UE receiving signaling that configures it with SRS resources, power control, timing advance information, and a QCL relationship for SRS transmissions. The UE then transmits SRS along with one or more PUR occasions based on the received configuration and signaling.
 
 
'''Abstract'''
 
Certain aspects of the present disclosure provide techniques for configuring sounding reference signals (SRS) resources for RRC inactive or idle UEs and multiplexing SRS with small data transmission on preconfigured uplink resources (PUR) An example method by a user equipment (UE) generally includes receiving signaling configuring the UE with SRS resources, QCL relationship, power control and timing advance information for SRS transmissions, and transmitting SRS in conjunction with one or more of the PUR occasions in accordance with the configuration and signaling.
 
  
 
===BEAM FAILURE DETECTION RESOURCE SET FOR PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) WITH REPETITION ([[US Patent Application 18007454. BEAM FAILURE DETECTION RESOURCE SET FOR PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) WITH REPETITION simplified abstract|18007454]])===
 
===BEAM FAILURE DETECTION RESOURCE SET FOR PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) WITH REPETITION ([[US Patent Application 18007454. BEAM FAILURE DETECTION RESOURCE SET FOR PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) WITH REPETITION simplified abstract|18007454]])===
Line 1,164: Line 678:
 
Yan ZHOU
 
Yan ZHOU
  
 
'''Brief explanation'''
 
This disclosure presents a system and method for using a beam failure detection reference signal resource set for a physical downlink control channel (PDCCH) with repetition. The system involves a user equipment (UE) monitoring a PDCCH transmission using multiple transmission control indicator (TCI) states. The UE determines a beam failure detection reference signal resource set based on the characteristics of the TCI states or a list of reference signals configured based on the TCI states. By monitoring this reference signal resource set, the UE can identify any beam failure that may occur.
 
 
'''Abstract'''
 
This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for using a beam failure detection reference signal resource set for a physical downlink control channels (PDCCH) with repetition. In one aspect, a user equipment (UE) may monitor a physical downlink control channel (PDCCH) transmission using at least two transmission control indicator (TCI) states. The UE may determine a beam failure detection reference signal resource set associated with the PDCCH monitoring based at least in part on a characteristic of the one or more of the TCI states or a list of a pair of reference signals configured based at least in part on one of the at least two TCI states. The UE may monitor the first beam failure detection reference signal resource set associated with the PDCCH monitoring to identify a beam failure.
 
  
 
===SPS REACTIVATION DCI ([[US Patent Application 18012622. SPS REACTIVATION DCI simplified abstract|18012622]])===
 
===SPS REACTIVATION DCI ([[US Patent Application 18012622. SPS REACTIVATION DCI simplified abstract|18012622]])===
Line 1,178: Line 686:
 
Konstantinos DIMOU
 
Konstantinos DIMOU
  
 
'''Brief explanation'''
 
The abstract describes methods, computer programs, and apparatuses for reactivating semi-persistent scheduling (SPS) in a communication system. In one example method, a user equipment (UE) receives two SPS reactivation downlink control information (DCI) messages from a base station. The UE then transmits a hybrid automatic repeat request (HARQ) feedback to the base station, indicating separately that it has detected both of the received SPS reactivation DCIs.
 
 
'''Abstract'''
 
Methods, computer programs products, and apparatuses for SPS reactivation are provided. An example method at a UE includes receiving, from a base station, a first semi-persistent scheduling (SPS) reactivation downlink control information (DCI). The example method further includes receiving, from the base station, a second SPS reactivation DCI. The example method further includes transmitting, to the base station, a hybrid automatic repeat request (HARQ) feedback separately indicating detection of the received first SPS reactivation DCI and the received second SPS reactivation DCI.
 
  
 
===HYBRID AUTOMATIC REPEAT REQUEST FEEDBACK CODEBOOK FOR MULTI-CELL SCHEDULING ([[US Patent Application 18178989. HYBRID AUTOMATIC REPEAT REQUEST FEEDBACK CODEBOOK FOR MULTI-CELL SCHEDULING simplified abstract|18178989]])===
 
===HYBRID AUTOMATIC REPEAT REQUEST FEEDBACK CODEBOOK FOR MULTI-CELL SCHEDULING ([[US Patent Application 18178989. HYBRID AUTOMATIC REPEAT REQUEST FEEDBACK CODEBOOK FOR MULTI-CELL SCHEDULING simplified abstract|18178989]])===
Line 1,192: Line 694:
 
Kazuki TAKEDA
 
Kazuki TAKEDA
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device (UE) receives data transmissions on a shared channel. The UE then sends feedback about the received data using a specific sub-codebook from a set of sub-codebooks. The choice of sub-codebook depends on the type of scheduling information received by the UE. 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 one or more physical downlink shared channel (PDSCH) communications scheduled by downlink control information (DCI). The UE may transmit, for the one or more PDSCH communications, hybrid automatic repeat request (HARQ) feedback using a sub-codebook of a set of sub-codebooks, wherein the sub-codebook is a single-cell scheduling sub-codebook, of the set of sub-codebooks, or a multi-cell scheduling sub-codebook, of the set of sub-codebooks, based at least in part on whether the DCI is a first format configured for scheduling on a single carrier or a second format configured for scheduling on a plurality of carriers. Numerous other aspects are described.
 
  
 
===DISCONTINUOUS RECEPTION ALIGNMENT WITH RESPECT TO PRIORITIZATION ([[US Patent Application 17659243. DISCONTINUOUS RECEPTION ALIGNMENT WITH RESPECT TO PRIORITIZATION simplified abstract|17659243]])===
 
===DISCONTINUOUS RECEPTION ALIGNMENT WITH RESPECT TO PRIORITIZATION ([[US Patent Application 17659243. DISCONTINUOUS RECEPTION ALIGNMENT WITH RESPECT TO PRIORITIZATION simplified abstract|17659243]])===
Line 1,206: Line 702:
 
Kaidong WANG
 
Kaidong WANG
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a first network node (such as a user equipment) determines its sidelink discontinuous reception (DRX) priority based on certain criteria. The first network node then uses a set of DRX configurations to communicate on a sidelink channel. These DRX configurations are aligned in time with a second network node's DRX configurations, which has an equivalent sidelink DRX priority. 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 first network node (e.g., a first user equipment (UE)) may determine a first sidelink discontinuous reception (DRX) priority assigned to the first network node, wherein the sidelink DRX priority is based on one or more criteria associated with the first network node. The first network node may communicate on a sidelink channel using a first set of one or more DRX configurations based on the first sidelink DRX priority assigned to the first network node, wherein the first set of one or more DRX configurations are at least partially aligned in time with a second set of one or more DRX configurations of a second network node (e.g., a second UE) assigned a second sidelink DRX priority that is equivalent to the first sidelink DRX priority. Numerous other aspects are described.
 
  
 
===CONTENTION WINDOW ADJUSTMENT FOR NEW RADIO UNLICENSED/SIDELINK ([[US Patent Application 18339888. CONTENTION WINDOW ADJUSTMENT FOR NEW RADIO UNLICENSED/SIDELINK simplified abstract|18339888]])===
 
===CONTENTION WINDOW ADJUSTMENT FOR NEW RADIO UNLICENSED/SIDELINK ([[US Patent Application 18339888. CONTENTION WINDOW ADJUSTMENT FOR NEW RADIO UNLICENSED/SIDELINK simplified abstract|18339888]])===
Line 1,220: Line 710:
 
Chih-Hao LIU
 
Chih-Hao LIU
  
 
'''Brief explanation'''
 
This abstract describes methods, systems, and devices for wireless communications. It explains that a transmitting device sends a first transmission to one or more receiving devices, and then monitors for feedback messages from the receivers in response to the transmission. Based on this feedback, the transmitting device determines a contention window size for subsequent transmissions. The contention window size is selected taking into account the feedback response and the type of transmission. The transmitting device then performs the subsequent transmissions using the selected contention window size and follows a clear channel assessment procedure.
 
 
'''Abstract'''
 
Methods, systems, and devices for wireless communications are described. A transmitting device may perform a first transmission to one or more receiving devices, the first transmission associated with a transmission type. The transmitting device may determine a feedback response for the first transmission based on monitoring for feedback messages from the one or more receiving devices in response to the first transmission. The transmitting device may select a contention window size for performing one or more subsequent transmissions based at least in part on the feedback response and the transmission type. The transmitting device may perform the one or more subsequent transmissions in accordance with a clear channel assessment procedure using the selected contention window size.
 
  
 
===RANDOM ACCESS CHANNEL MESSAGE WITHOUT A PHYSICAL DOWNLINK CONTROL CHANNEL ([[US Patent Application 18340347. RANDOM ACCESS CHANNEL MESSAGE WITHOUT A PHYSICAL DOWNLINK CONTROL CHANNEL simplified abstract|18340347]])===
 
===RANDOM ACCESS CHANNEL MESSAGE WITHOUT A PHYSICAL DOWNLINK CONTROL CHANNEL ([[US Patent Application 18340347. RANDOM ACCESS CHANNEL MESSAGE WITHOUT A PHYSICAL DOWNLINK CONTROL CHANNEL simplified abstract|18340347]])===
Line 1,234: Line 718:
 
Mahmoud TAHERZADEH BOROUJENI
 
Mahmoud TAHERZADEH BOROUJENI
  
 
'''Brief explanation'''
 
The abstract describes a wireless communication system where a user device sends a message to a base station and then waits for a response from the base station. The response is monitored in a specific set of resources that are determined based on the initial message sent by the user device. This monitoring is done without the need for downlink control information. The abstract mentions that there are other aspects of the system 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 transmit a first random access channel (RACH) message to a base station, and monitor for a second RACH message from the base station in a set of resource candidates that are based at least in part on the transmitted first RACH message absent downlink control information. The set of resource candidates may be outside of a physical downlink control channel. Numerous other aspects are provided.
 
  
 
===ADAPTIVE GROUPING FOR COOPERATIVE RADAR SENSING ([[US Patent Application 17659249. ADAPTIVE GROUPING FOR COOPERATIVE RADAR SENSING simplified abstract|17659249]])===
 
===ADAPTIVE GROUPING FOR COOPERATIVE RADAR SENSING ([[US Patent Application 17659249. ADAPTIVE GROUPING FOR COOPERATIVE RADAR SENSING simplified abstract|17659249]])===
Line 1,247: Line 725:
  
 
Hyojin LEE
 
Hyojin LEE
 
 
'''Brief explanation'''
 
This abstract describes a technique for adaptive grouping in cooperative radar sensing for wireless communications. The method involves receiving grouping information from a second network entity, which indicates a set of network entities during specific time periods. The first network entity then receives radar signals during these time periods and transmits sensing information based on these signals back to the second network entity.
 
 
'''Abstract'''
 
Certain aspects of the present disclosure provide techniques for adaptive grouping for cooperative radar sensing. A method for wireless communications by a first network entity includes receiving, from a second network entity, first grouping information comprising an indication of a first plurality of network entities, the first grouping information associated with a first time-period; receiving, from the second network entity, second grouping information comprising an indication of a second plurality of network entities, the second grouping information associated with a second time-period; receiving a first radar signal during the first time-period; receiving a second radar signal during the second time-period; transmitting, to the second network entity, first sensing information based on the first radar signal; and transmitting, to the second network entity, second sensing information based on the second radar signal.
 

Latest revision as of 06:04, 27 October 2023

Summary of the patent applications from QUALCOMM Incorporated on October 19th, 2023

QUALCOMM Incorporated has filed several recent patents related to wireless communication systems and techniques. These patents cover various aspects such as adaptive grouping in cooperative radar sensing, contention window size determination, sidelink discontinuous reception (DRX) priority, sub-codebook selection for feedback, reactivation of semi-persistent scheduling (SPS), beam failure detection, configuration of sounding reference signals (SRS) resources, and data transmission rate matching for semi-persistent scheduling.

Notable recent applications include:

  • Adaptive grouping in cooperative radar sensing for wireless communications.
  • Wireless communication system with monitoring of response in specific resources without downlink control information.
  • Determination of contention window size based on feedback messages for subsequent transmissions.
  • Sidelink DRX priority determination and alignment with another network node's DRX configurations.
  • Selection of sub-codebook for feedback based on scheduling information received.
  • Reactivation of SPS in a communication system using multiple SPS reactivation downlink control information messages.
  • Use of beam failure detection reference signal resource set for PDCCH monitoring.
  • Configuration of SRS resources for idle or inactive user equipment and multiplexing with small data transmission on preconfigured uplink resources.
  • Matching data transmission rate around specific resource elements used for a cell-specific reference signal pattern in SPS communication.
  • Wireless communication method between two user equipment devices with feedback sequence determination based on control information.

These patents and applications demonstrate QUALCOMM Incorporated's ongoing research and development efforts in wireless communication technologies. They address various challenges and improvements in areas such as radar sensing, resource allocation, feedback mechanisms, scheduling, and beam failure detection. These innovations aim to enhance the efficiency, reliability, and performance of wireless communication systems.



Contents

Patent applications for QUALCOMM Incorporated on October 19th, 2023

Respiratory Feedback For Improved Exercise Performance (18044660)

Main Inventor

Katheryn Victoria RAMP


SYSTEMS AND METHODS OF COLLABORATIVE ENHANCED SENSING (17723393)

Main Inventor

Mohammed Ataur Rahman SHUMAN


SIDELINK-AIDED HYBRID NETWORK POSITIONING (18030361)

Main Inventor

Weimin DUAN


HANDLING POSITIONING SESSIONS DURING CELL TIMING SOURCE OUTAGES (18340973)

Main Inventor

Sony AKKARAKARAN


LOCATION AS A SERVICE (18296549)

Main Inventor

Xiaoxin ZHANG


Channel Gating For Conditional Computation (18337462)

Main Inventor

Babak EHTESHAMI BEJNORDI


INTELLIGENT MANAGEMENT OF APPLICATION LAYER RENDERING (18042575)

Main Inventor

Nan ZHANG


MESSAGE BROADCASTING FOR VEHICLES (18340294)

Main Inventor

Stephen Marc CHAVES


DISPLAYING DIRECTIONAL VISUAL INDICATORS FROM A WEARABLE DEVICE FOR NAVIGATION (18114615)

Main Inventor

Sai Krishna Vadali


DISPLAY PANEL FPS SWITCHING (18025176)

Main Inventor

Nan ZHANG


INTEGRATED CIRCUITS (ICS) EMPLOYING MULTI-PATTERN METALLIZATION TO OPTIMIZE METAL INTERCONNECT SPACING FOR IMPROVED PERFORMANCE AND RELATED FABRICATION METHODS (17659214)

Main Inventor

Bed Raj Kandel


RESISTOR NETWORK WITH ADAPTIVE RESISTANCE FOR DIGITAL-TO-ANALOG CONVERTER (DAC) (17659531)

Main Inventor

Nitz SAPUTRA


OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM (17659468)

Main Inventor

Lennart Karl-Axel MATHE


FREQUENCY PRE-COMPENSATION FOR HIGH-SPEED TRAIN SINGLE FREQUENCY NETWORKS (18334446)

Main Inventor

Kiran VENUGOPAL


GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NTN BASED ON USER EQUIPMENT REQUIREMENTS (17937302)

Main Inventor

Liangping MA


TECHNIQUES FOR BLOCKAGE SENSOR ASSISTED BEAM MANAGEMENT (18304737)

Main Inventor

Jun ZHU


LATTICE REDUCTION-AIDED PERTURBED ADDITIVE DEMAPPER FOR MULTIPLE-INPUT MULTIPLE-OUTPUT SIGNAL DETECTION (18155454)

Main Inventor

Markus PESCHL


BASE STATION-TO-SERVER SIGNALING OF TIME-ANGLE CHANNEL PROFILE (18042972)

Main Inventor

Sooryanarayanan GOPALAKRISHNAN


BEAMFORMING REPEATER WITH META-SURFACE ANTENNAS (17721979)

Main Inventor

Raju HORMIS


TECHNIQUES AND APPARATUSES FOR DOWNLINK CONTROL CHANNEL DESIGN USING A TOP TO BOTTOM SEARCH SPACE (18307347)

Main Inventor

Jing SUN


CRC BITS FOR JOINT DECODING AND VERIFICATION OF CONTROL INFORMATION USING POLAR CODES (18332412)

Main Inventor

Changlong XU


CHANNEL STATE INFORMATION (CSI) REDUCTION FOR DEFERRED FEEDBACK (17723321)

Main Inventor

Ahmed ELSHAFIE


SKIPPED RESOURCES OF A GRANT (17659433)

Main Inventor

Diana MAAMARI


FEEDBACK COMMUNICATIONS FOR TRANSPORT BLOCKS WITH MULTIPLE CODE BLOCK GROUPS (17659150)

Main Inventor

Ahmed Attia ABOTABL


OPEN RADIO ACCESS NETWORK MESSAGE CONFIGURATIONS (18003082)

Main Inventor

Doohyun SUNG


POSITIONING REFERENCE SIGNAL SELECTION FOR POWER SAVINGS (18006755)

Main Inventor

Alexandros MANOLAKOS


TRIGGERING A POSITIONING-RELATED ACTION BASED ON A CHANNEL STATE INFORMATION REQUEST FIELD (18042554)

Main Inventor

Alexandros MANOLAKOS


REFERENCE SIGNAL MAPPING (17659322)

Main Inventor

Kazuki TAKEDA


SELF-INTERFERENCE CANCELLATION FOR FULL-DUPLEX COMMUNICATION (18147494)

Main Inventor

Min Soo SIM


OBTAINING ACCURATE TIMING OF ANALOG TO DIGITAL CONVERTER SAMPLES IN CELLULAR MODEM (17659469)

Main Inventor

Lennart Karl-Axel MATHE


MULTI-GENERATION COMMUNICATION IN A WIRELESS LOCAL AREA NETWORK (WLAN) (18182288)

Main Inventor

Stephen Jay SHELLHAMMER


SOUNDING REFERENCE SIGNAL (SRS) CYCLIC SHIFT HOPPING (17659799)

Main Inventor

Muhammad Sayed Khairy ABDELGHAFFAR


ADAPTATION FOR EXTENDED REALITY TRANSMISSIONS (17724224)

Main Inventor

Huilin Xu


METHODS FOR ADAPTIVE SIGNALING OF MAXIMUM NUMBER OF MERGE CANDIDATES IN MULTIPLE HYPOTHESIS PREDICTION (18175988)

Main Inventor

Han Huang


INTRA CHROMA MODE LIST CONSTRUCTION FOR VIDEO CODING (18187517)

Main Inventor

Yao-Jen Chang


VIRTUAL BOUNDARY PROCESSING FOR CCSAO, BILATERAL FILTER AND ADAPTIVE LOOP FILTER FOR VIDEO CODING (18298787)

Main Inventor

Venkata Meher Satchit Anand Kotra


VIDEO COMPRESSION USING DEEP GENERATIVE MODELS (18337331)

Main Inventor

Amirhossein HABIBIAN


RF-SENSING-BASED HUMAN IDENTIFICATION USING COMBINED GAIT AND SHAPE RECOGNITION (17659602)

Main Inventor

Hadi GIVEHCHIAN


MEASUREMENT MODEL BASED ON UPLINK SIGNALS WITH RECIPROCITY TO DOWNLINK BEAM (18336817)

Main Inventor

Srinivas YERRAMALLI


TRS FOR MULTICAST AND BROADCAST (18182257)

Main Inventor

Le LIU


MANAGING TRANSMISSION OF MISBEHAVIOR REPORTS (17659359)

Main Inventor

Jonathan PETIT


PERFORMANCE INDICATORS FOR COMBINATIONS OF MACHINE LEARNING MODELS (17659129)

Main Inventor

Xipeng ZHU


MINIMUM POSITIONING REFERENCE SIGNAL (PRS) PROCESSING WHEN MEASUREMENT GAPS ARE NOT CONFIGURED (18336607)

Main Inventor

Alexandros MANOLAKOS


SIGNAL MODIFICATION FOR CONTROL CHANNEL PHYSICAL LAYER SECURITY (17659319)

Main Inventor

Ahmed ELSHAFIE


NETWORK SLICE-SPECIFIC AUTHENTICATION AND AUTHORIZATION (18004153)

Main Inventor

Haris Zisimopoulos


COMMUNICATION SECURITY BASED ON PARAMETER CHANGE (17722054)

Main Inventor

Sai Yiu Duncan HO


L1 SECURITY BY ADDING ARTIFICIAL AM/PM (17659421)

Main Inventor

Igor GUTMAN


WAKE-UP SIGNAL BASED SEMI-PERSISTENT SCHEDULING CONFIGURATION FOR EXTENDED REALITY TRAFFIC (17659328)

Main Inventor

Olufunmilola Omolade AWONIYI-OTERI


TECHNIQUES FOR WIDE BANDWIDTH POSITIONING IN A WIRELESS LOCAL AREA NETWORK (17722197)

Main Inventor

Yanjun Sun


COMMUNICATION SECURITY BASED ON FREQUENCY DOMAIN RESIDUAL SIDEBAND CHARACTERISTICS (17722216)

Main Inventor

Igor Gutman


PHYSICAL LAYER PREAMBLE DESIGN FOR SPECIAL PACKET TYPES (18304310)

Main Inventor

Jialing Li CHEN


DYNAMIC MU-MIMO STAGING FOR REAL-WORLD APPLICATIONS (17722601)

Main Inventor

Nicholas KUCHAREWSKI


MANAGED MU-MIMO ENABLEMENT FOR REAL-WORLD APPLICATIONS (17722564)

Main Inventor

Ahmed Ragab ELSHERIF


DETECTION OF REMOTE FEATURE SUPPORT (18189548)

Main Inventor

Luis Fernando Brisson LOPES


TECHNIQUES FOR WIRELESS COMMUNICATIONS WITH A MASTER NODE IN A MASTER CELL GROUP WITHOUT A CHANGE IN A SECONDARY NODE IN A SECONDARY CELL GROUP (18043004)

Main Inventor

Jaspreet KAUR


MOBILE NODE MEASUREMENT FOR NODE DISCOVERY OR INTERFERENCE MANAGEMENT (17659761)

Main Inventor

Qian ZHANG


MEASUREMENT TIMING CONFIGURATION INDICATIONS BETWEEN NETWORK NODES (17659444)

Main Inventor

Navid ABEDINI


SELECTING A NEIGHBOR NODE IN A WIRELESS MULTI-HOP NETWORK USING A COST PARAMETER (18341096)

Main Inventor

Naeem AKL


JOINT CELL SELECTION FOR DUAL SUBSCRIPTION DUAL ACTIVE (DSDA) OPERATION (17724205)

Main Inventor

Akash KUMAR


UPLINK TRANSMISSION DURING A CELL SLEEP MODE OPERATION (17659439)

Main Inventor

Hung Dinh LY


DISCONTINUOUS RECEPTION FOR CONFIGURED GRANT/SEMI-PERSISTENT SCHEDULING (17724373)

Main Inventor

Lianghai Ji


CELL ACTIVE TIME CONFIGURATION (17659813)

Main Inventor

Hung Dinh LY


USER EQUIPMENT ASSISTANCE INFORMATION AND BUFFER STATUS REPORT EXTENSION FOR GREEN NETWORKS (17721201)

Main Inventor

Ahmed Attia Abotabl


RADIO LINK MONITORING AND BEAM FAILURE DETECTION FOR ENERGY SAVING MODES (17724153)

Main Inventor

Ahmed Attia Abotabl


TIMING CONTROL FOR INTER-USER EQUIPMENT MEASUREMENTS INVOLVED IN NON-TERRESTRIAL NETWORKS (17659166)

Main Inventor

Huilin XU


DYNAMIC SYNCHRONIZATION SIGNAL BLOCKS FOR SIDELINK COMMUNICATION (17659293)

Main Inventor

Chih-Hao LIU


TRANSMITTING SYNCHRONIZATION SIGNAL BLOCK VIA RECONFIGURABLE INTELLIGENT SURFACES (18042590)

Main Inventor

Yu ZHANG


GRADUAL FREQUENCY ADJUSTMENT FOR DUAL-LOOP FREQUENCY CONTROL IN NON-TERRESTRIAL NETWORK (17935851)

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Liangping MA


PROXIMITY-BASED PRIORITIZATION OF UPLINK AND DOWNLINK POSITIONING RESOURCES (18043855)

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Alexandros MANOLAKOS


PANEL-SPECIFIC SLOT FORMAT INDICATION (18006718)

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Fang YUAN


MULTI-SHARED CHANNEL SCHEDULING FOR EXTENDED REALITY (18179709)

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Huilin Xu


TECHNIQUES FOR CONFIGURING USER EQUIPMENT SUPPORTED CARRIER AGGREGATION BAND COMBINATIONS (18044133)

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Nitin PANT


BEAM ACTIVATION BASED ON PCI (18008397)

Main Inventor

Yan ZHOU


NETWORK TIME SECTORING (17722641)

Main Inventor

Nicholas KUCHAREWSKI


PERIODIC SCHEDULING OF MULTIPLE UNIQUE SETS OF TRANSPORT BLOCKS (18167311)

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Huilin Xu


QUALITY OF SERVICE (QOS) FOR UPLINK ACCESS IN A WIRELESS LOCAL AREA NETWORK (WLAN) (18183787)

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Alfred ASTERJADHI


CROSS-CARRIER SCHEDULING ENHANCEMENTS IN NEW RADIO (NR) (18114000)

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Peter Pui Lok Ang


CONFIGURATION FOR GROUP-COMMON DOWNLINK CHANNELS WITH REPETITIONS (18340746)

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Le LIU


METHODS FOR PROTECTING SIDELINK FEEDBACK INFORMATION (17659303)

Main Inventor

Anantharaman BALASUBRAMANIAN


AVOIDING COLLISIONS WITH REFERENCE SIGNALS (18182267)

Main Inventor

Hamed PEZESHKI


MULTIPLEXING OF PUR AND SRS (18042099)

Main Inventor

Jing LEI


BEAM FAILURE DETECTION RESOURCE SET FOR PHYSICAL DOWNLINK CONTROL CHANNEL (PDCCH) WITH REPETITION (18007454)

Main Inventor

Yan ZHOU


SPS REACTIVATION DCI (18012622)

Main Inventor

Konstantinos DIMOU


HYBRID AUTOMATIC REPEAT REQUEST FEEDBACK CODEBOOK FOR MULTI-CELL SCHEDULING (18178989)

Main Inventor

Kazuki TAKEDA


DISCONTINUOUS RECEPTION ALIGNMENT WITH RESPECT TO PRIORITIZATION (17659243)

Main Inventor

Kaidong WANG


CONTENTION WINDOW ADJUSTMENT FOR NEW RADIO UNLICENSED/SIDELINK (18339888)

Main Inventor

Chih-Hao LIU


RANDOM ACCESS CHANNEL MESSAGE WITHOUT A PHYSICAL DOWNLINK CONTROL CHANNEL (18340347)

Main Inventor

Mahmoud TAHERZADEH BOROUJENI


ADAPTIVE GROUPING FOR COOPERATIVE RADAR SENSING (17659249)

Main Inventor

Hyojin LEE