Systems and methods for performing a zoom operation on a display of a computing device include identifying a region of interest (ROI) of an image presented on a computing device display based on a receive zoom user input, determining a scaling ratio for a final zoomed presentation of the ROI, selecting two or more convolutional neural network (CNN) layers from among a plurality of CNN layers each including a scaling ratio that is less than the scaling ratio for the final zoomed presentation of the ROI, generating an intermediate image from each of the selected CNN layers including a sequence of intermediate size image frames of the ROI, and rendering an animation of changes in a displayed size of the ROI using the sequence of intermediate size image frames of the ROI.
Certain aspects of the present disclosure provide a method for wireless communications at a user equipment (UE). The first UE may receive an indication that a second UE will not transmit in at least one symbol overlapping with an occasion configured for the first UE for measuring a cross-link interference (CLI). The first UE may skip the occasion for measuring the CLI, in response to the received indication.
Certain aspects of the present disclosure provide techniques for improving beam management. An example method includes receiving, from a network entity, configuration information configuring the UE with a set of transmission configuration indicator (TCI) states, wherein the configured set of TCI states comprises a first number of TCI states for use in communicating with the network entity, detecting a change in an operation mode of the UE from a first operation mode to a second operation mode, and transmitting, based on the detected change in the operation mode of the UE, information to the network entity indicating the UE will monitor and report on a reduced second number of TCI states of the configured set of TCI states relative to the first number of TCI states.
4.
BACK-TO-BACK TRANSMISSIONS VIA A MULTI-HOP RELAY PATH USING FLOW-SPECIFIC RESOURCE RESERVATION
This disclosure provides methods, components, devices and systems for back-toback transmissions via a multi-hop relay path using flow-specific resource reservation. Some aspects more specifically relate to flow-specific transmission opportunity (TXOP) sharing and/or orthogonal channel reservation in combination with a flow-specific sequence of time slots. In implementations in which flow-specific TXOP sharing is employed in combination with a flow-specific sequence of time slots, one or more wireless communication devices may determine whether a shared TXOP supersedes the flow-specific sequence of time slots in accordance with whether the shared TXOP is associated with a same flow as the sequence of time slots. In implementations in which orthogonal channel reservation is employed in combination with a flow-specific sequence of time slots, each wireless communication device of a multi-hop relay path may receive an indication of or otherwise be configured with a frequency channel via which to transmit.
H04W 72/0446 - Ressources du domaine temporel, p.ex. créneaux ou trames
H04W 40/22 - Sélection d'itinéraire ou de voie de communication, p.ex. routage basé sur l'énergie disponible ou le chemin le plus court utilisant la retransmission sélective en vue d'atteindre une station émettrice-réceptrice de base [BTS Base Transceiver Station] ou un point d'accès
5.
DYNAMIC MONITORING OF RETRANSMISSION SCHEDULING ACCORDING TO PACKET DELAY BUDGETS
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may transmit, to a network entity, a feedback message indicating that the UE unsuccessfully decoded a downlink message. In some cases, the downlink message may be associated with a traffic flow having a packet delay budget (PDB). The UE may switch a receiver of the UE to a sleep state after transmitting the feedback message based on the PDB of the traffic flow for the downlink message, signaling from the network entity, or both. Additionally, or alternatively, a UE may transmit, to a network entity, an uplink message associated with a traffic flow having a PDB. The UE may the switch a receiver of the UE to a sleep state after transmitting the uplink message based on the PDB of the traffic flow for the uplink message, signaling from the network entity, or both.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may communicate on a first component carrier (CC) and a second CC. The UE may transmit a first power headroom (PH) report indicating an actual PH value on the first CC. The UE may transmit a second PH report on the second CC, wherein transmitting the PH report on the second CC is associated with at least one of a virtual PH threshold or a timer specific to the second CC. Numerous other aspects are described.
Imaging systems and techniques are described. A system receives an image. The system selects a trained machine learning model from a plurality of trained machine learning models based on an image resolution of the image and a plurality of input resolutions of the plurality of trained machine learning models. The system processes the image using the trained machine learning model to generate processed image data.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first network entity may receive a communication indicating frequency modulated continuous waveform (FMCW) reference signal resource information, the FMCW reference signal resource information indicating a resource allocation and one or more candidate cyclic shift offsets. The first network entity may communicate an FMCW reference signal using the resource allocation and a particular cyclic shift offset from the one or more candidate cyclic shift offsets. Numerous other aspects are described.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a network-controlled repeater (NCR) node may obtain measurements related to backhaul links between the NCR node and network nodes that forward radio frequency (RF) signals through the NCR node and to an access link between the NCR node and a user equipment (UE). The end-to-end link quality between the UE and each network node may be estimated (for example, by the NCR node or a current serving cell) in accordance with the measurements and a gain and/or transmit power used to forward RF signals, and the current serving cell may use the estimated end-to-end link quality to arrive at handover decisions for the UE.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive an indication of a counter value and a correlation threshold parameter associated with a wake-up signal for tracking (WUT) to be received by a wake-up receiver (WUR) of the UE. The UE may count WUR failure occurrences based at least in part on the correlation threshold parameter. The UE may initiate a beam recovery process in accordance with a quantity of WUR failure occurrences being greater than or equal to the counter value. In some aspects, the UE may receive an indication of a set of transmission configuration indication (TCI) states to be monitored. The UE may monitor, for each TCI state of the set of TCI states, a wake-up signal for tracking (WUT) using a wake-up receiver (WUR) of the UE. Numerous other aspects are described.
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a receiving (Rx) user equipment (UE) may receive an automatic gain control (AGC) allocation configuration for a first AGC allocation. The Rx may receive one or more of an AGC allocation activation signal or an AGC allocation indication, the AGC allocation activation signal being associated with a second AGC allocation and the AGC allocation indication being associated with a third AGC allocation for a transport block. Numerous other aspects are described.
H04W 52/52 - Commande de puissance d'émission [TPC Transmission power control] utilisant des circuits ou des amplificateurs de commande automatique de gain [AGC Automatic Gain Control]
H04W 72/23 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c. à d. en direction du terminal
H04W 92/18 - Interfaces entre des dispositifs hiérarchiquement similaires entre des dispositifs terminaux
12.
TECHNIQUES FOR SELECTION OF ASSISTING NODE FOR DOWNLINK COMMUNICATIONS
Certain aspects are directed towards a method for wireless communication by a base station. The method generally includes: transmitting, to one or more candidate assisting nodes, at least one first message allocating one or more resources for performing one or more measurements for an uplink communication with at least one ambient internet of things (loT) device; receiving, from the one or more candidate assisting nodes, one or more reports including results of the one or more measurements; selecting one of the one or more candidate assisting nodes to assist with the uplink communication between the base station and the at least one ambient loT device based on the one or more reports; and receiving data from the at least one ambient loT device via the selected one of the candidate assisting nodes.
H04W 40/12 - Sélection d'itinéraire ou de voie de communication, p.ex. routage basé sur l'énergie disponible ou le chemin le plus court sur la base de la qualité d'émission ou de la qualité des canaux
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a wireless communication device may encode one or more information bits into a plurality of polar code sub-block outputs, identify one or more shaping bits for a first polar code sub-block output of the plurality of polar code sub-block outputs, and transmit a polar-coded codeword derived from at least the first polar code sub-block output and the second polar code sub-block output. In some aspects, a wireless communication device may identify one or more shaping bit subchannels, identify one or more information bit subchannels, and transmit one or more shaping bits in the one or more shaping bit subchannels and one or more information bits in the one or more information bit subchannels. Numerous other aspects are described.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive configuration information associated with reporting joint channel state information (CSI) associated with a plurality of CSI reference signals (CSI-RSs). The UE may receive the plurality of CSI-RSs associated with a plurality of CSI-RS resources. The UE may transmit a reporting communication based on the configuration information and the plurality of CSI-RSs, the reporting communication comprising the joint CSI associated with the plurality of CSI-RSs, wherein a report overhead associated with a CSI-RS of the plurality of CSI-RSs is based on a CSI measurement associated with the plurality of CSI-RSs. Numerous other aspects are described.
An apparatus, including: a first signal receiver circuit including: a first reference voltage generator configured to generate a first reference voltage that tracks noise present in a supply voltage used to generate a first single-ended signal; and a first comparator configured to generate a first signal based on a comparison of the first single-ended signal and the first reference voltage.
An example device includes a memory configured to store video data; and a processing system comprising one or more processors implemented in circuitry and configured to: construct a merge candidate list for a current block of video data, wherein the processing system is configured to add a first merge candidate that was predicted using a first convolutional cross component model (CCCM) to the merge candidate list and add a second merge candidate that was predicted using a second CCCM to the merge candidate list, the first CCCM being different than the second CCCM; decode a merge index value for the current block of video data, the merge index value indicating the first merge candidate; in response to the merge index value indicating the first merge candidate, form a prediction block for the current block using the first CCCM; and decode the current block using the prediction block.
H04N 19/105 - Sélection de l’unité de référence pour la prédiction dans un mode de codage ou de prédiction choisi, p.ex. choix adaptatif de la position et du nombre de pixels utilisés pour la prédiction
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p.ex. un objet la zone étant un bloc, p.ex. un macrobloc
H04N 19/186 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une couleur ou une composante de chrominance
17.
CROSS SUBTILE PREDICTION FOR BANDWIDTH COMPRESSION
Aspects presented herein relate to methods and devices for data processing including an apparatus, e.g., a CPU. The apparatus may obtain an indication of a set of data subunits corresponding to at least one data unit. The apparatus may also arrange data for the set of data subunits into a first data order for the set of data subunits. Further, the apparatus may perform at least one of an encoding process or a decoding process on the data for each data subunit of the set of data subunits. The apparatus may also rearrange the data for the set of data subunits into the first data order for a first data subunit in the set of data subunits and into a second data order for at least one second data subunit in the set of data subunits, where the first data order is different from the second data order.
H04N 19/129 - Balayage d’unités de codage, p.ex. balayage en zigzag de coefficients de transformée ou ordonnancement flexible de macroblocs [OFM]
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p.ex. un objet la zone étant un bloc, p.ex. un macrobloc
H04N 19/182 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant un pixel
H04N 19/436 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques - caractérisés par les détails de mise en œuvre ou le matériel spécialement adapté à la compression ou à la décompression vidéo, p.ex. la mise en œuvre de logiciels spécialisés utilisant des dispositions de calcul parallélisées
H04N 19/593 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage prédictif mettant en œuvre des techniques de prédiction spatiale
18.
INDICATION OF UNUSED ENERGY TRANSFER OR ENERGY HARVESTING OCCASIONS
Methods, systems, and devices for wireless communications are described. Energy harvesting (EH)-capable devices may receive power from transmissions by other devices. The network may schedule a user equipment (UE) to provide an energy transfer transmission to an EH-capable device. The UE may be unable to perform the scheduled energy transfer transmission. A UE scheduled to perform an energy transfer transmission to an EH-capable device may transmit an indication to the network, the EH-capable device, or another UE that the UE will skip the scheduled energy transfer transmission. In response, the EH-capable device may not monitor for the scheduled energy transfer transmission, the network may schedule a different resource for an energy transfer transmission by the UE, the network may schedule a different UE to perform an energy transfer transmission to the EH-capable device, and/or another UE which received the indication may perform an energy transfer transmission to the EH-capable device.
H02J 50/00 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique
H02J 50/40 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique utilisant plusieurs dispositifs de transmission ou de réception
H02J 50/80 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre l’échange de données, concernant l’alimentation ou la distribution d’énergie électrique, entre les dispositifs de transmission et les dispositifs de réception
19.
BI-DIRECTION OPTICAL FLOW SUBBLOCK REFINEMENT FOR AN AFFINE MODELED BLOCK
A video decoder determines that a current block of size width (WCB) x height (HCB) is coded in an affine prediction mode; predicts each subblock of a first plurality of subblocks using an affine motion model to determine an initial prediction block, each subblock having a size of width (WSB) x height (HSB) and WSB being less than WCB and HSB being less than HCB; applies a bi-directional optical flow process to first and second subblocks of a second plurality of subblocks to determine first and second refined prediction subblocks, each subblock having a size of width (WSBIPB) x height (HSBIPB), WSBIPB being less than or equal to WCB and less than or equal to WSB and HSBIPB being less than or equal to HCB and less than or equal to HSB; and determines a refined prediction block based on the first refined subblock and the second refined subblock.
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p.ex. un objet la zone étant un bloc, p.ex. un macrobloc
H04N 19/182 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant un pixel
H04N 19/54 - Estimation de mouvement autre que basée sur les blocs utilisant des points ou des maillages caractéristiques
H04N 19/577 - Compensation de mouvement avec interpolation de trame bidirectionnelle, p.ex. utilisation d’images B
H04N 19/159 - Type de prédiction, p.ex. prédiction intra-trame, inter-trame ou de trame bidirectionnelle
20.
RADIO FREQUENCY (RF) VARIABLE GAIN AMPLIFIER (VGA) WITH VARYING GAIN ELEMENTS
Aspects include amplifiers with different units for improved performance. One amplifier has a first transistor with first gate is coupled to a control input, and a first drain is coupled to a first terminal of an output, a second transistor with a second gate is coupled to the control input, and a second drain is coupled to a second terminal of the output. The amplifier has a third transistor with a third drain coupled to the first transistor source, and a third gate is coupled to a first terminal of an input, and a fourth transistor with a fourth drain is coupled to the second transistor source, and a fourth source gate is coupled to a second terminal of the input, where the first transistor source is not connected to the second transistor drain via one or more transistors.
H03F 1/22 - Modifications des amplificateurs pour réduire l'influence défavorable de l'impédance interne des éléments amplificateurs par utilisation de couplage dit "cascode", c. à d. étage avec cathode ou émetteur à la masse suivi d'un étage avec grille ou base à la masse respectivement
H03F 3/193 - Amplificateurs à haute fréquence, p.ex. amplificateurs radiofréquence comportant uniquement des dispositifs à semi-conducteurs comportant des dispositifs à effet de champ
H03F 3/195 - Amplificateurs à haute fréquence, p.ex. amplificateurs radiofréquence comportant uniquement des dispositifs à semi-conducteurs dans des circuits intégrés
H03F 3/72 - Amplificateurs commandés, c. à d. amplificateurs mis en service ou hors service au moyen d'un signal de commande
H03G 1/00 - RÉGLAGE DE L'AMPLIFICATION - Détails des dispositions pour le réglage de l'amplification
21.
BLOCK VECTOR STORING AND TOOL HARMONIZATION FOR BLOCK VECTOR RELATED VIDEO CODING
A method of encoding or decoding video data includes storing a block vector (BV) for a current block in a history BV list for encoding or decoding a subsequent block, wherein the current block is encoded or decoded in intra temporal motion vector prediction (IntraTMP) mode, and wherein the history BV list includes BVs for blocks that do not neighbor the subsequent block; deriving a candidate list of BVs for the subsequent block based on BVs from the history BV list that includes the BV for the current block; and encoding or decoding the subsequent block based on the candidate list of BVs.
H04N 19/593 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage prédictif mettant en œuvre des techniques de prédiction spatiale
22.
CHROMA BDOF AND ADAPTIVE MULTI-PASS DMVR IN VIDEO CODING
A device for decoding video data determines a luma prediction block for a luma block of a current block using an initial motion vector; applies one or more decoder-side motion vector refinement processes to the luma prediction block to determine a refined luma prediction block and refined motion vectors, the one or more motion vector refinement processes comprising a bi-directional optical flow (BDOF) process; for a chroma sample of a chroma block, determines a motion vector for the chroma sample based on refined motion vectors of one or more co-located luma samples of the luma block; determines a chroma prediction sample for a chroma prediction block based on the motion vector for the chroma sample; and determines a decoded version of the current block based on the refined luma prediction block and the chroma prediction block.
H04N 19/159 - Type de prédiction, p.ex. prédiction intra-trame, inter-trame ou de trame bidirectionnelle
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p.ex. un objet la zone étant un bloc, p.ex. un macrobloc
H04N 19/186 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une couleur ou une composante de chrominance
This disclosure provides methods, components, devices, and systems for employing a traffic identifier (TID) to link (TID-to-link) mapping scheme to proactively avoid possible upcoming breaches of a service-level agreement (SLA) associated with a device (an "SLA-aware device"). The SLA may impose certain low latency or throughput requirements. An unavailability of a first link on which the SLA-aware device is operating may cause the SLA to be breached. Breach of the SLA may result in disruptions to the operation of the SLA-aware device and subject the party associated with the breach of the SLA to penalties. In aspects, an event associated with an upcoming breach of the SLA is identified and a TID-to-link mapping scheme associated with unavailability information is transmitted. The unavailability information indicates an unavailability associated with the first link, and the TID-to-link mapping scheme maps at least one TID to a second link other than the first link.
H04W 28/24 - Négociation de l'agrément du niveau de service [SLA Service Level Agreement]; Négociation de la qualité de service [QoS Quality of Service]
H04W 16/14 - Dispositions de partage du spectre de fréquence
H04W 28/02 - Gestion du trafic, p.ex. régulation de flux ou d'encombrement
H04W 40/24 - Gestion d'informations sur la connectabilité, p.ex. exploration de connectabilité ou mise à jour de connectabilité
H04W 76/34 - Libération sélective de connexions en cours
H04W 76/15 - Gestion de la connexion Établissement de la connexion Établissement de connexions à liens multiples sans fil
H04W 84/12 - Réseaux locaux sans fil [WLAN Wireless Local Area Network]
Certain aspects of the present disclosure provide techniques and apparatus for dynamic global navigation satellite system (GNSS) blanking. An exemplary method includes determining an uplink (UL) transmission to be sent via a first radio access technology (RAT) radio of the UE will occur during an operating session of a second RAT radio of the UE, performing a blanking operation on signals received using the second RAT radio during the operating session when one or more thresholds associated with the UL transmission are satisfied, and refraining from performing the blanking operation on the signals received using the second RAT radio during the operating session when the one or more thresholds associated with the UL transmission are not satisfied.
H04B 1/10 - Dispositifs associés au récepteur pour limiter ou supprimer le bruit et les interférences
H04B 1/525 - Dispositions hybrides, c. à d. dispositions pour la transition d’une transmission bilatérale sur une voie à une transmission unidirectionnelle sur chacune des deux voies ou vice versa avec des moyens de réduction de la fuite du signal de l’émetteur vers le récepteur
Various aspects of the present disclosure generally relate to wireless communication. Some aspects involve enhancing an inter-user-equipment coordination (IUC) framework to enable user equipment (UE) to perform beam sweeping over the sidelink. Some aspects more specifically relate to fine-tuning beams, such as transmit beams or receive beams, using one or more IUC requests. In some aspects, multiple transmit beams or multiple receive beams may carry respective IUC requests and associated beam signals. In some aspects, one transmit beam or one receive beam may carry an IUC request and associated beam signal, multiple remaining transmit beams or receive beams may carry associated beam signals, and the transmit UE or the receive UE may identify a fine-tuned transmit beam or a fine-tuned receive beam responsive to, based on, or otherwise associated with the IUC request and associated beam signals.
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/08 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
26.
CALIBRATION OF NON-CO-LOCATED POLARIZED ANTENNA ARRAYS
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first wireless communication device may transmit, to a second wireless communication device, capability information including an indication of a type of calibration associated with a non-co-located dual-polarized antenna array of the first wireless communication device. The first wireless communication device may communicate, using the non-co-located dual polarized antenna array, based at least in part on the calibration associated with the non-co-located dual polarized antenna array. Numerous other aspects are described.
H04B 17/12 - Surveillance; Tests d’émetteurs pour l’étalonnage d’antennes d’émission, p.ex. de l’amplitude ou de la phase
H01Q 3/26 - Dispositifs pour changer ou faire varier l'orientation ou la forme du diagramme de directivité des ondes rayonnées par une antenne ou un système d'antenne faisant varier la distribution de l’énergie à travers une ouverture rayonnante
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first user equipment (UE) may receive information for a shared channel occupancy time (COT) of a second UE that indicates an offset in the COT before which the first UE is not able to perform listen-before-talk (LBT) to access the shared COT and after which the first UE is able to perform LBT to access the shared COT. The UE may transmit, to the second UE, sidelink control information that indicates a reserved slot that is reserved for the first UE in the shared COT before the offset. The UE may perform an LBT procedure to perform a transmission at the reserved slot within the shared COT. Numerous other aspects are described.
H04W 72/25 - Canaux de commande ou signalisation pour la gestion des ressources entre terminaux au moyen d’une liaison sans fil, p.ex. liaison secondaire
H04W 92/18 - Interfaces entre des dispositifs hiérarchiquement similaires entre des dispositifs terminaux
H04W 76/14 - Gestion de la connexion Établissement de la connexion Établissement de la connexion en mode direct
H04L 1/1867 - Dispositions spécialement adaptées au point d’émission
28.
DYNAMIC ADJUSTMENT OF MEASUREMENT REPORTING CHARACTERISTICS
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive a message indicating a set of measurement report occasions for transmission of measurement reports associated with a first periodicity between measurement report occasions, the measurement reports associated with a first indicator size for reporting indicators of beams. The UE may measure reference signals associated with the measurement reports to determine potential beams for communications with the network entity. The UE may transmit a measurement report including one or more indicators, each indicator indicating one of the potential beams, and each indicator may have a second indicator size smaller than the first indicator size based on the quantity of the potential beams. Further, the UE may transmit measurement reports with a second periodicity different from the first periodicity based on a reporting metric being within a first value range of a set of value ranges.
A first sensing entity may receive, from a second sensing entity, a sensing information message that may include a first set of sensing attributes associated with a set of objects within an area associated with the first sensing entity. The first sensing entity may transmit a set of sensing signals at a target object. The first sensing entity may receive a set of reflected sensing signals based on the set of sensing signals and the target object. The first sensing entity may measure a second set of sensing attributes associated with the target object based on the set of reflected sensing signals and the first set of sensing attributes. The measured second set of sensing attributes may be more accurate than a set of sensing attributes that are not based on the first set of sensing attributes.
G01S 7/00 - DÉTERMINATION DE LA DIRECTION PAR RADIO; RADIO-NAVIGATION; DÉTERMINATION DE LA DISTANCE OU DE LA VITESSE EN UTILISANT DES ONDES RADIO; LOCALISATION OU DÉTECTION DE LA PRÉSENCE EN UTILISANT LA RÉFLEXION OU LA RERADIATION D'ONDES RADIO; DISPOSITIONS ANALOGUES UTILISANT D'AUTRES ONDES - Détails des systèmes correspondant aux groupes , ,
G01S 7/02 - DÉTERMINATION DE LA DIRECTION PAR RADIO; RADIO-NAVIGATION; DÉTERMINATION DE LA DISTANCE OU DE LA VITESSE EN UTILISANT DES ONDES RADIO; LOCALISATION OU DÉTECTION DE LA PRÉSENCE EN UTILISANT LA RÉFLEXION OU LA RERADIATION D'ONDES RADIO; DISPOSITIONS ANALOGUES UTILISANT D'AUTRES ONDES - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe
G01S 13/46 - Détermination indirecte des données relatives à la position
H04W 72/044 - Affectation de ressources sans fil sur la base du type de ressources affectées
H04W 72/25 - Canaux de commande ou signalisation pour la gestion des ressources entre terminaux au moyen d’une liaison sans fil, p.ex. liaison secondaire
30.
PHYSICAL DOWNLINK CONTROL CHANNEL MONITORING OCCASION-BASED CODEBOOK GENERATION ACCORDING TO VARYING CODEBOOK GENERATION CHARACTERISTICS
Methods, systems, and devices for wireless communication are described. A user equipment (UE) may receive a downlink control information (DCI) message indicating a time slot for the UE to transmit feedback according to a codebook size. The UE may monitor a quantity of physical downlink control channel monitoring occasions (PMOs) within a subset of time slots before the time slot. The PMOs may include a first set of one or more PMOs associated with a first codebook generation characteristic and a second set of one or more PMOs associated with a second codebook generation characteristic. The UE may transmit the feedback via the time slot according to a first codebook size based on the monitoring. The first codebook size may be based on a quantity of PMOs included in the first set of PMOs associated with the first codebook generation characteristic.
Various aspects include methods for managing communication links with different networks. A user equipment (UE) processor may start a first retry timer in a first network communication module in response to receiving a connection reject message from a first communication network, send a value of the first retry timer to a second network communication module, start a second retry timer in the second network communication module based on the value of the first retry timer, send a service request from the second network communication module to a second communication network, and send a connection success message from the second network communication module to the first network communication module upon establishing a communication link with the second communication network before the second retry timer expires. The first communication network may be a terrestrial cellular network and the second communication network may be a satellite communication network.
A method of self-testing a transceiver integrated circuit substrate includes: providing a test signal to a transmission line that is communicatively coupled, or selectively communicatively coupled, to an input of a power amplifier of a first transceiver subcircuit of the transceiver integrated circuit substrate; providing the test signal from the transmission line to an LNA of an LNA of a second transceiver subcircuit of the transceiver integrated circuit substrate; and measuring the test signal before amplification by the LNA, or after amplification by the LNA, or both.
This disclosure provides methods, components, devices and systems for 480 and 640 megahertz (MHz) transmission in Wi-Fi. Some aspects more specifically relate to inclusion of a bandwidth field and a bandwidth extension field in a preamble of a physical layer protocol data unit (PPDU) that jointly indicate that the channel bandwidth of the PPDU is a contiguous 480 MHz channel bandwidth or a 640 MHz channel bandwidth. In some aspects, parameters of the PPDU may be defined based on the PPDU occupying a 480 MHz or 640 MHz bandwidth. For example, the parameters may include tone plans, allowed puncturing patterns, signaling of the puncturing plans, signaling of the resource unit allocation, a short training field, a long training field, pilot signal sequences, phase shifts, a segment parser, and/or a spectral mask.
An inductive device includes a first set of conductive lines, a second set of conductive lines, and conductive pillars connecting the first set of conductive lines to the second set of conductive lines to form an integrated inductor. The inductive device also includes one or more magnetic layers extending along a length of the integrated inductor and within an aperture of the integrated inductor.
H01F 17/00 - Inductances fixes du type pour signaux
H01F 41/04 - Appareils ou procédés spécialement adaptés à la fabrication ou à l'assemblage des aimants, des inductances ou des transformateurs; Appareils ou procédés spécialement adaptés à la fabrication des matériaux caractérisés par leurs propriétés magnétiques pour la fabrication de noyaux, bobines ou aimants pour la fabrication de bobines
H01L 23/00 - DISPOSITIFS À SEMI-CONDUCTEURS NON COUVERTS PAR LA CLASSE - Détails de dispositifs à semi-conducteurs ou d'autres dispositifs à l'état solide
35.
ADAPTIVE POWER ALLOCATION FOR TX ANTENNA BASED ON ENHANCED CSF REPORT
Apparatus, methods, and computer program products for wireless communication are provided. An example method may include receiving, from a network node, at least one channel state information reference signal (CSI RS). The example method may further include transmitting, to the network node, information indicative of at least one power associated with a post-processing frequency domain residual sideband and a noise per each antenna associated with the UE in a channel state feedback (CSF) report based on the at least one CSI RS. The example method may further include receiving, from the network node, a power allocation configuration based on the information indicative of the at least one power associated with the post-processing frequency domain residual sideband and the noise per each antenna associated with the network node.
Disclosed are techniques for wireless signaling. In an aspect, a wireless sensing node receives a radio frequency for sensing (RF-S) configuration, performs one or more RF-S procedures based on the RF-S configuration, obtains sea state information based on the one or more RF-S procedures, and transmits the sea state information to a network component.
G01S 7/00 - DÉTERMINATION DE LA DIRECTION PAR RADIO; RADIO-NAVIGATION; DÉTERMINATION DE LA DISTANCE OU DE LA VITESSE EN UTILISANT DES ONDES RADIO; LOCALISATION OU DÉTECTION DE LA PRÉSENCE EN UTILISANT LA RÉFLEXION OU LA RERADIATION D'ONDES RADIO; DISPOSITIONS ANALOGUES UTILISANT D'AUTRES ONDES - Détails des systèmes correspondant aux groupes , ,
G01S 13/00 - Systèmes utilisant la réflexion ou la reradiation d'ondes radio, p.ex. systèmes radar; Systèmes analogues utilisant la réflexion ou la reradiation d'ondes dont la nature ou la longueur d'onde sont sans importance ou non spécifiées
G01S 13/06 - Systèmes déterminant les données relatives à la position d'une cible
G01S 13/42 - Mesure simultanée de la distance et d'autres coordonnées
G01S 13/58 - Systèmes de détermination de la vitesse ou de la trajectoire; Systèmes de détermination du sens d'un mouvement
G01S 13/88 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques
G01S 13/89 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour la cartographie ou la représentation
G01S 13/95 - Radar ou systèmes analogues, spécialement adaptés pour des applications spécifiques pour la météorologie
37.
HEAD MOUNTED DISPLAY (HMD) DEVICE CALIBRATION BASED ON HINGE MOTION
Systems and techniques are described herein for using head mounted display (HMD) hinge motion to calibrate the head mounted device. For example, a device (or component of the device) can obtain, via one or more sensors, sensor measurements during rotation of a display of the HMD between a first end of a range of motion of a hinge of the display about an axis and a second end of the range of motion of the hinge about the axis; determine parameters of the HMD based on the sensor measurements and the rotation of the display between the first end of the range of motion of the hinge and the second end of the range of motion of the hinge about the axis; and determine pose information for the HMD based on the determined parameters.
G06F 3/01 - Dispositions d'entrée ou dispositions d'entrée et de sortie combinées pour l'interaction entre l'utilisateur et le calculateur
G06F 3/0346 - Dispositifs de pointage déplacés ou positionnés par l'utilisateur; Leurs accessoires avec détection de l’orientation ou du mouvement libre du dispositif dans un espace en trois dimensions [3D], p.ex. souris 3D, dispositifs de pointage à six degrés de liberté [6-DOF] utilisant des capteurs gyroscopiques, accéléromètres ou d’inclinaiso
38.
GENERATING FACE MODELS BASED ON IMAGE AND AUDIO DATA
Systems and techniques are described herein for generating models of faces. For instance, a method for generating models of faces is provided. The method may include obtaining one or more images of one or both eyes of a face of a user; obtaining audio data based on utterances of the user; and generating, using a machine-learning model, a three-dimensional model of the face of the user based on the one or more images and the audio data.
Methods, systems, and devices for wireless communications are described. Generally, the techniques described herein may support balancing of system usage costs with performance. For example, a user equipment (UE) may transmit a usage cost message indicating usage costs associated with each unique set of operating parameters supported by the UE, including a first set of operating parameters associated with a first usage cost and a second set of operating parameters associated with a second usage cost. Each set of operating parameters may further be associated with a respective quantity of receive beams of the UE for operating according to the respective set of operating parameters. Additionally, the UE may receive an indication for the UE to operate according to the first set of operating parameters or the second set of operating parameters based on the first usage cost and the second usage cost.
H04B 7/0456 - Sélection de matrices de pré-codage ou de livres de codes, p.ex. utilisant des matrices pour pondérer des antennes
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/08 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
40.
NEURAL NETWORK-BASED IN-LOOP FILTER ARCHITECTURES WITH LOCALIZED MULTI-SCALE FEATURE EXTRACTION FOR VIDEO CODING
A device for decoding video data determines a block of a picture; applies a neural network (NN)-based filter process to the block to generate a filtered block, wherein to apply the NN-based filter process, the device performs a first feature extraction on pixel data of the block at a first scale to generate a first set of extracted features for the block; and performs a second feature extraction on the pixel data of the block at a second scale to generate a second set of extracted features for the block, wherein the first scale is different than the second scale; and generates the filtered block based on the first set of extracted features and the second set of extracted features.
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p.ex. un objet la zone étant un bloc, p.ex. un macrobloc
H04N 19/82 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques - Détails des opérations de filtrage spécialement adaptées à la compression vidéo, p.ex. pour l'interpolation de pixels mettant en œuvre le filtrage dans une boucle de prédiction
41.
PUBLIC LAND MOBILE NETWORK (PLMN) SCANNING FOR INTERNET OF THINGS (IOT) DEVICES DURING INTERNATIONAL MOBILITY
A method for wireless communication by a user equipment (UE) includes configuring pairs of radio access technologies (RATs) and frequency bands in response to detecting no preferred public land mobile network (PLMN) while the UE is roaming in a different country than a country in which the UE was previously registered. The method also includes scanning one of the pairs of RAT/frequency band in a selected PLMN. The method further includes attempting registration on the selected PLMN in response to the scanning indicating a quality of the selected PLMN is above a threshold. The method includes storing the selected PLMN in a list of successful PLMNs in response to successful registration.
Techniques are provided for configurable millimeter wave (mmWave) receiver architectures for carrier aggregation (CA). An example method for operating a wireless node in a carrier aggregation mode or a single band mode includes configuring the wireless node to operate in at least one of the carrier aggregation mode or the single band mode, configuring a high band receive chain wireless node to utilize a first intermediate frequency in response to configuring the wireless node to operate in the single band mode, and configuring the low band receive chain to utilize the first intermediate frequency, and the high band receive chain to utilize a second intermediate frequency in response to configuring the wireless node to operate in the carrier aggregation mode.
H03F 1/00 - AMPLIFICATEURS - Détails des amplificateurs comportant comme éléments d'amplification uniquement des tubes à décharge, uniquement des dispositifs à semi-conducteurs ou uniquement des composants non spécifiés
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04B 1/00 - TRANSMISSION - Détails des systèmes de transmission non caractérisés par le milieu utilisé pour la transmission
43.
RECEIVER ALIGNMENT TO ENHANCE SIGNAL QUALITY IN NEAR-FIELD COMMUNICATIONS
Methods, systems, and devices for wireless communication are described. A receiver may orient its antenna arrays based on signaling from a transmitter and a distance between the receiver and the transmitter. The transmitter may transmit an indication of an orientation of its antenna array. The receiver may receive the indication and may determine the distance between the receiver and the transmitter. Based on whether the distance between the receiver and the transmitter satisfies a threshold distance from the transmitter, the receiver may select an orientation for its antenna array. The receiver may select a first antenna orientation based on the distance failing to satisfy the threshold distance and may select a second orientation based on the distance satisfying the threshold distance.
Methods, systems, and devices for wireless communications are described. A user equipment (UE) or relay node may transmit a beam report indicating a polarization layer mismatch (achievable rates are different for the first and second polarizations, or positioning estimation accuracy is different for the first and second polarizations). The report may include an indication of an imbalance in signal strength, an estimation error for the two polarizations, one or more beam pairs that are not supported across the two polarizations, a preferred polarization, or a combination thereof. In response to the beam report, the network entity may adjust one or more parameters, and may transmit accordingly. A relay node may indicate non-co-located polarization array construction via capability information. The UE may then transmit feedback indicating a direction of steered beams at the UE. The relay node performs relay operations based on transmission characteristics selected from the beam direction information.
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/08 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
H04B 7/10 - Diversité de polarisation; Diversité de direction
45.
BLOCK VECTOR SEARCH FOR INTRA-BLOCK COPY PREDICTION FOR CODING VIDEO DATA
An example device for decoding video data includes a memory configured to store video data; and a processing system comprising one or more processors implemented in circuitry, the processing system being configured to: determine that vector information for a current block of video data is to be decoded using a merge with vector difference mode; determine a search process to be used to determine a vector difference for the vector information; select a merge candidate from a merge candidate list to determine a vector predictor for the vector information; perform the search process to determine the vector difference; apply the vector difference to the vector predictor to form a final vector; and form a prediction block for the current block using the final vector.
H04N 19/52 - Traitement de vecteurs de mouvement par encodage par encodage prédictif
H04N 19/70 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques caractérisés par des aspects de syntaxe liés au codage vidéo, p.ex. liés aux standards de compression
46.
TRANSMISSION OF SHAPING BITS WITHIN A SINGLE CODE BLOCK GROUP FOR BLOCK-CODE BASED CONSTELLATION SHAPING
Apparatuses and methods for transmission of shaping bits within a CBG for block-code based constellation shaping are described. An apparatus generates shaping bits, from information bits, in a CBG having multiple CBs, and generates encoded shaping bits for at least one of the multiple CBs by encoding the shaping bits using shaping encoding. The apparatus transmits, to a receiver node, the CBG including CBs with encoded information bits based on the shaping bits, unencoded information bits, and a CB including the encoded shaping bits. Another apparatus receives a CBG including CBs having unencoded information bits, encoded shaping bits, and encoded information bits encoded based on the encoded shaping bits and that represent transmitter node information. The apparatus generates decoded information bits and decoded shaping bits by jointly decoding the encoded information and encoded shaping bits. The apparatus estimates the information bits by encoding the decoded information and decoded shaping bits.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive a cross radio access technology (cross-RAT) indication for joint or separate downlink assignment index (DAI) fields via downlink control information (DCI) for a hybrid automatic repeat request (HARQ) codebook. The UE may monitor a physical downlink control channel (PDCCH) across multiple component carriers in accordance with the cross-RAT indication for the joint or separate DAI fields. Numerous other aspects are described.
Systems and techniques are described herein for enabling tracking of an object. For instance, an apparatus for enabling tracking of an object is provided. The apparatus may include a body comprising a handle to be held in a hand of a user; a plurality of light sources arranged on the body; and at least one processor configured to adaptively adjust a pattern of the plurality of light sources to enable an object-tracking system to track the body based on images of the plurality of light sources. Additionally, systems and techniques are described herein for tracking an object. For instance, an apparatus for tracking an object is provided. The apparatus may include a camera configured to capture a plurality of images of a tracked object; a communication unit configured to communicate with the tracked object; and at least one processor configured to determine a pose of the tracked object based on the plurality of images of the tracked object.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may receive configuration information indicative of a plurality of configured grant (CG) configurations associated with at least one unused time occasion (UTO). The UE may transmit a UTO-uplink control information (UCI) (UTO-UCI) indication comprising at least one UTO parameter indicative of at least one skipped CG occasion associated with at least one CG configuration of the plurality of CG configurations. Numerous other aspects are described.
Systems and techniques are described herein for enabling tracking of an object. For instance, an apparatus for enabling tracking of an object is provided. The apparatus may include a body comprising a handle; a plurality of light sources arranged on the body; and at least one processor configured to control the plurality of light sources to enable an object-tracking system to track the body based on images of the plurality of light sources. Additionally, systems and techniques are described herein for tracking an object. For instance, an apparatus for tracking an object is provided. The apparatus may include a camera configured to capture a plurality of images of a tracked object; a communication unit configured to send signals to the tracked object; and at least one processor configured to determine a pose of the tracked object based on the plurality of images of the tracked object.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a wireless communication device may encode one or more information bits into a plurality of polar code sub-block outputs, identify one or more shaping bits for a first polar code sub-block output of the plurality of polar code sub-block outputs, and transmit a polar-coded codeword derived from at least the first polar code sub-block output and the second polar code sub-block output. In some aspects, a wireless communication device may identify one or more shaping bit subchannels, identify one or more information bit subchannels, and transmit one or more shaping bits in the one or more shaping bit subchannels and one or more information bits in the one or more information bit subchannels. Numerous other aspects are described.
Certain aspects of the present disclosure provide a method for wireless communication by a base station. The method generally includes: transmitting, to each of one or more candidate assisting nodes, at least one message allocating one or more resources for performing one or more measurements for a downlink communication with at least one ambient internet of things (IoT) device; receiving one or more reports including results of the one or more measurements; selecting one of the one or more candidate assisting nodes to assist with the downlink communication between the base station and the at least one ambient IoT device based on the one or more reports; and transmitting data destined for the at least one ambient IoT device via the selected one of the candidate assisting nodes.
Methods, systems, and devices for wireless communications are described. A transmitting device or a receiving device may indicate support for crest factor reduction (CFR) techniques using clipping and mirroring. The transmitting device may indicate a clipping level and a mirroring level for a CFR function. The transmitting device may generate a waveform in accordance with the CFR function and may transmit the waveform to the receiving device. The receiving device may monitor the waveform to detect one or more mirrored portions of the waveform. The receiving device may invert the one or more mirrored portions of the waveform over the mirroring level to restore and decode the waveform.
Disclosed are techniques for wireless communication. In an aspect, one or more slots in a set of DMRS-bundled slots are excluded from a DMRS-sharing power control configuration based on duplex-type. In another aspect, a fixed transmission power level for a DMRS-sharing power control configuration is based at least in part upon a duplex configuration of DMRS-bundled slots.
This disclosure provides methods, devices and systems for wireless communication. The method generally includes selecting an access point (AP) from a plurality of candidate APs based on multiple factors associated with each of the plurality of candidate APs, the multiple factors including at least a congestion factor and a security factor, wherein a weight associated with the security factor for selecting the AP is greater than a weight associated with the congestion factor; and connecting to a network via the AP based on the selection.
Methods, systems, and devices for wireless communications are described. In a wireless communications system, a base station may support a flexible cell with a set of carriers including an anchor carrier and two or more non-anchor carriers. In some examples, a user equipment (UE) may select, from among the set of carriers and based on receiving an indication of the configuration, a carrier for transmission of a request for system information associated with the flexible cell. The UE may transmit the request for system information to the base station via the selected carrier. Additionally or alternatively, the UE may select a carrier for reception by the UE of an acknowledgement for the request for the system information, and the UE may receive the acknowledgement for the request for system information via the selected carrier.
H04W 48/14 - Distribution d'informations relatives aux restrictions d'accès ou aux accès, p.ex. distribution de données d'exploration utilisant une requête de l’utilisateur
H04W 72/02 - Sélection de ressources sans fil par un utilisateur ou un terminal
H04W 74/0833 - Procédures d’accès aléatoire, p.ex. avec accès en 4 étapes
57.
METHODS AND APPARATUS FOR MULTIPLE SIDELINK CHANNEL OCCUPANCY TIME SHARING
Aspects of the present disclosure include methods, apparatuses, and computer readable media for receiving channel occupancy time (COT) sharing information associated with COT sharing resources from a plurality of initiating UEs via a plurality of sidelink (SL) communication channels, and forwarding the COT sharing information to a plurality of responding devices.
H04W 74/0808 - utilisant une détection de porteuse, p.ex. accès multiple par détection de porteuse [CSMA]
H04W 72/25 - Canaux de commande ou signalisation pour la gestion des ressources entre terminaux au moyen d’une liaison sans fil, p.ex. liaison secondaire
Disclosed are systems, apparatuses, processes, and computer-readable media for authentication. For instance, a process can include receiving first authentication information for a user; generating an authentication token based on the received first authentication information, wherein the authentication token does not include the first authentication information; receiving user information for the user; obtaining an anonymous identifier token, wherein the anonymous identifier token comprises a composite token, and wherein the anonymous identifier token includes an identity token generated based on the received user information; adding the authentication token to the anonymous identifier token; and storing the anonymous identifier token for authenticating a user.
H04L 9/32 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
An example device for decoding video data includes a memory configured to store video data; and a processing system including one or more processors implemented in circuitry, the processing system being configured to: determine that a previously coded block of video data was coded using uni-prediction mode for which a bi-prediction syntax element is not assigned a value; determine that a current block of the video data is to be coded using a bi-prediction mode and that motion information of the current block is to be predicted from the previously coded block, including from the bi-prediction syntax element of the previously coded block; and in response to the bi-prediction syntax element of the previously coded block not having an assigned value, decode the current block using a substitute value for the bi-prediction syntax element.
H04N 19/70 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques caractérisés par des aspects de syntaxe liés au codage vidéo, p.ex. liés aux standards de compression
H04N 19/117 - Filtres, p.ex. pour le pré-traitement ou le post-traitement
H04N 19/137 - Mouvement dans une unité de codage, p.ex. différence moyenne de champs, de trames ou de blocs
H04N 19/159 - Type de prédiction, p.ex. prédiction intra-trame, inter-trame ou de trame bidirectionnelle
H04N 19/176 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le codage adaptatif caractérisés par l’unité de codage, c. à d. la partie structurelle ou sémantique du signal vidéo étant l’objet ou le sujet du codage adaptatif l’unité étant une zone de l'image, p.ex. un objet la zone étant un bloc, p.ex. un macrobloc
H04N 19/86 - Procédés ou dispositions pour le codage, le décodage, la compression ou la décompression de signaux vidéo numériques utilisant le pré-traitement ou le post-traitement spécialement adaptés pour la compression vidéo mettant en œuvre la diminution des artéfacts de codage, p.ex. d'artéfacts de blocs
60.
DISCRETE FOURIER TRANSFORM-SPREAD (DFT-S) BASED INTERLACE PHYSICAL UPLINK CONTROL CHANNEL (PUCCH) WITH USER MULTIPLEXING
Wireless communications systems and methods related user multiplexing with discrete Fourier transform (DFT) precoded frequency interlaces are provided. A first wireless communication device identifies a first block-spreading code from a set of block-spreading codes associated with user multiplexing. The first wireless communication device communicates, with a second wireless communication device using a frequency interlace in a frequency spectrum, a first communication signal including a first block of information symbols spread across a set of resource blocks (RBs) within the frequency interlace based on the first block-spreading code. The first communication signal is generated by block-spreading the first block of information symbols based on the first block-spreading code to produce a first block of spread information symbols, performing a DFT on the first block of spread information symbols, and mapping the first block of spread information symbols to the set of RBs.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may transmit a sidelink synchronization signal block (S-SSB) with a high priority listen-before-talk (LBT) parameter. The UE may communicate with an other UE based at least in part on the S-SSB with the high priority LBT parameter. Numerous other aspects are described.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a mobile station may transmit first uplink reference signals in a first time slot. The mobile station may transmit an uplink communication with a frequency domain resource allocation different than a frequency domain resource allocation for the first uplink reference signals. The mobile station may determine a time gap between the transmitted uplink communication and second uplink reference signals to be transmitted in a second time slot and retune the mobile station during the time gap such that the second uplink reference signals maintain phase continuity with the first uplink reference signals. The mobile station may transmit the second uplink reference signals in the second time slot. The first time slot and the second time slot may be consecutive time slots for uplink reference signals. Numerous other aspects are described.
Devices and methods for wireless communication between a scheduled entity having a plurality of antenna elements operable as multiple antenna and a scheduling entity include signaling transmission configuration information (TCI) to a scheduled entity to define unified TCI states that indicate beam directions of multiple corresponding beams, signaling a unified TCI state to be used for an upcoming communication for the scheduled entity using two or more beams as indicated by the unified TCI state.
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/08 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
64.
UPLINK (UL) BEAM RESET AFTER MAXIMUM PERMISSIBLE EXPOSURE (MPE) REPORT
Certain aspects of the present disclosure provide a method for wireless communication by a user equipment (UE). The UE transmits, to a network entity via a first beam, a maximum permissible exposure (MPE) report indicating a second beam. The UE then receives a response indicating an acknowledgment of the MPE report from the network entity. The UE then transmits an uplink (UL) transmission using the second beam to the network entity.
H04B 7/0404 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées la station mobile comprenant plusieurs antennes, p.ex. pour mettre en œuvre une diversité en voie ascendante
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04W 52/36 - Commande de puissance d'émission [TPC Transmission power control] utilisant les limitations de la quantité totale de puissance d'émission disponible avec une plage ou un ensemble discrets de valeurs, p.ex. incrément, variation graduelle ou décalages
A method for wireless communication at a user equipment (UE) and related apparatus are provided. In the method, a UE configures a first distribution of a set of radio capabilities over a plurality of operational scenarios, and transmits, to a network entity, a signal including at least one portion of the first distribution to indicate to the network entity to configure a scheduling configuration based on the at least one portion of the first distribution. The UE further communicates, based on the first distribution of the set of radio capabilities and the scheduling configuration, with the network. The method enables the UE to actively participate in resource allocation decisions, resulting in enhanced communication performance and optimized resource utilization.
H04W 72/51 - Critères d’affectation ou de planification des ressources sans fil sur la base des propriétés du terminal ou du dispositif
H04B 7/06 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station d'émission
H04B 7/08 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées à la station de réception
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
H04W 72/1268 - Jumelage du trafic à la planification, p.ex. affectation planifiée ou multiplexage de flux de flux de données en liaison ascendante
66.
SYSTEMS AND METHODS FOR REDUCING LATENCY AND IMPROVING PERFORMANCE IN A PERIPHERAL COMPONENT INTERCONNECT EXPRESS (PCIe) SYSTEM
A Peripheral Component Interconnect Express (PCIe) system and method achieve reduced latency and improved performance by reconfiguring the PCIe link to use an increased number of lanes for retransmitting data packets held in a replay buffer if one or more data packets transmitted by the TX device are flagged as not acknowledged (NACK) by the RX device. Before retransmitting the NACK-flagged packet(s), the link is reconfigured to use a greater number of lanes, preferably the maximum number of lanes that are available for use, and then the NACK-flagged packet(s) is retransmitted using the greater number of lanes until successful receipt of the NACK-flagged packets has been acknowledged by the RX device. Once the NACK-flagged packet(s) is successfully received by the RX device, the link is reconfigured to use the previous number of lanes and operations of the link resume using the previous number of lanes.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may detect a collision between one or more of a first-stage downlink control information (DCI) or a second-stage DCI, of a two-stage DCI, and a symbol in which a physical downlink control channel (PDCCH) is not monitored by the UE. The UE may perform a collision handling for the two-stage DCI based at least in part on the collision, wherein the collision handling is based at least in part on one of: a prioritization of the two-stage DCI, a fallback to a single-stage DCI, or a shift of the first-stage DCI. Numerous other aspects are described.
H04W 72/232 - Canaux de commande ou signalisation pour la gestion des ressources dans le sens descendant de la liaison sans fil, c. à d. en direction du terminal les données de commande provenant de la couche physique, p.ex. signalisation DCI
H04W 72/1273 - Jumelage du trafic à la planification, p.ex. affectation planifiée ou multiplexage de flux de flux de données en liaison descendante
H04W 72/541 - Critères d’affectation ou de planification des ressources sans fil sur la base de critères de qualité en utilisant le niveau d’interférence
This disclosure provides systems, methods, and devices for wireless communications that support multiple antenna operation. In a first aspect, an apparatus for wireless communications includes an amplifier module comprising a first input node, a second input node, a first output node, a second output node, and a third output node, with the amplifier comprising a first processing path configured to couple the first input node to the first output node; and a second processing path configured to couple the second input node to the second output node in a first mode and to couple the second input node to the third output node in a second mode. Other aspects and features are also claimed and described.
H03F 1/02 - Modifications des amplificateurs pour augmenter leur rendement, p.ex. étages classe A à pente glissante, utilisation d'une oscillation auxiliaire
H03F 3/24 - Amplificateurs de puissance, p.ex. amplificateurs de classe B, amplificateur de classe C d'étages transmetteurs de sortie
This disclosure provides systems, methods, and devices for wireless communication that support backscatter based positioning. In a first aspect, a method of wireless communication includes receiving, from a transmit network entity, a data signal via a first channel. The method also includes receiving, from a tag device, a backscatter signal based on the data signal received by the tag device via the first channel. The backscatter signal is received via a second channel that is different from the first channel. The method further includes transmitting a report that indicates a position measurement associated with a position of the tag device. The position measurement is determined based on the received data signal and the received backscatter signal. Other aspects and features are also claimed and described.
G01S 13/74 - Systèmes utilisant la reradiation d'ondes radio, p.ex. du type radar secondaire; Systèmes analogues
G01S 13/75 - Systèmes utilisant la reradiation d'ondes radio, p.ex. du type radar secondaire; Systèmes analogues utilisant des transpondeurs alimentés par les ondes reçues, p.ex. utilisant des transpondeurs passifs
G01S 13/76 - Systèmes utilisant la reradiation d'ondes radio, p.ex. du type radar secondaire; Systèmes analogues dans lesquels des signaux de type pulsé sont transmis
H04W 64/00 - Localisation d'utilisateurs ou de terminaux pour la gestion du réseau, p.ex. gestion de la mobilité
70.
POWER DELIVERY NETWORK DEGRADATION DETECTION IN A COMPUTING DEVICE
Degradation of a power delivery network (PDN) in a computing device may be detected as part of a self-test during booting of the computing device or a device subsystem. The computing device may be an automotive vehicle control system. A clock signal provided to logic circuitry supplied by the PDN may be modulated, and the modulation frequency may be varied over a range. Voltage droop values in the logic circuitry may be measured in response to the modulation frequencies over the range. Impedance values may be determined by determining an odd harmonic of each of the voltage droop values. The impedance values may be compared with thresholds, and an alert or other indication may be issued if one or more of the impedance values exceeds a threshold.
B60W 50/02 - COMMANDE CONJUGUÉE DE PLUSIEURS SOUS-ENSEMBLES D'UN VÉHICULE, DE FONCTION OU DE TYPE DIFFÉRENTS; SYSTÈMES DE COMMANDE SPÉCIALEMENT ADAPTÉS AUX VÉHICULES HYBRIDES; SYSTÈMES D'AIDE À LA CONDUITE DE VÉHICULES ROUTIERS, NON LIÉS À LA COMMANDE D'UN SOUS-ENSEMBLE PARTICULIER - Détails des systèmes d'aide à la conduite des véhicules routiers qui ne sont pas liés à la commande d'un sous-ensemble particulier pour préserver la sécurité en cas de défaillance du système d'aide à la conduite, p.ex. en diagnostiquant ou en palliant à un dysfonctionnement
B60W 50/035 - Mise des unités de commande dans un état prédéterminé, p.ex. en donnant la priorité à des éléments d'actionnement particuliers
B60W 50/14 - Moyens d'information du conducteur, pour l'avertir ou provoquer son intervention
71.
SYSTEMS AND METHODS FOR TESTING ERROR CORRECTION CODE (ECC) LOGIC OF AUTOMOTIVE SAFETY SYSTEMS FOR FAULTS
An error correction code (ECC) test system and method are provided that test ECC logic for faults, preferably at power on before a workload is being processed. If the ECC logic fails the test, preferably an interrupt is issued indicating that the ECC logic is faulty and the corresponding ECC fault signature is reported in a status register of the system as part of a consolidated system report.
A technique is performed at a user equipment (UE) for supporting one or more radio frequency (RF) sensing measurements. A reflected downlink signal is received, wherein the reflected downlink signal is transmitted as a downlink signal from a base station and reflected off of a target. An uplink signal is transmitted to be reflected off of the target and received by the base station as a reflected uplink signal. A UE receive-transmit (RX-TX) time difference is determined, representing a difference between a time at which the reflected downlink signal is received by the UE and a time at which the uplink signal is transmitted by the UE. A UE measured frequency offset is determined based on reception of the reflected downlink signal, the UE measured frequency offset comprising a Doppler shift component corresponding to a velocity of the target.
In an aspect, a user equipment (UE) may execute a discontinuous reception (DRX) configuration having an on duration during which the UE is in a time-limited active reception state, wherein the DRX configuration is based on a transmission schedule for one or more positioning System Information Blocks (posSIBs). The UE may receive the one or more posSIBs during the on duration of the DRX configuration executed by the UE.
Aspects of this disclosure relate generally to mobility in a service-based architecture. Some aspects more specifically relate to path switching in a service-based architecture. In some examples, a distributed node may exchange signaling with a service server to configure and execute a path switch in connection with handover of a user equipment to the distributed node. For example, the distributed node may communicate with the service server directly. As another example, the distributed node may communicate with a mobility service to execute the path switch. In some examples, aspects described herein provide for a service server to buffer data and provide data forwarding in connection with the path switch.
Certain aspects of the present disclosure generally relate to electronic circuits and, more particularly, to an operational transconductance amplifier (OTA). One example amplifier generally includes: a first pair of input transistors; a first pair of cascode transistors coupled in cascode with the first pair of input transistors, respectively; a second pair of input transistors; a second pair of cascode transistors coupled in cascode with the second pair of input transistors, respectively; and a third pair of input transistors coupled to the second pair of cascode transistors, respectively.
Some disclosed devices include a light source system, an ultrasonic receiver system and a control system. The control system may be configured to receive first sensor signals, including ultrasonic receiver signals, from the ultrasonic receiver system and to estimate one or more blood vessel features based on the first sensor signals. The control system may be configured to receive second sensor signals from a second sensor and to estimate a PWV based on the first sensor signals and the second sensor signals. The control system may be configured to estimate blood pressure based, at least in part, on the one or more blood vessel features and the PWV.
A61B 5/021 - Mesure de la pression dans le cœur ou dans les vaisseaux sanguins
A61B 5/00 - Mesure servant à établir un diagnostic ; Identification des individus
A61B 5/02 - Mesure du pouls, du rythme cardiaque, de la pression sanguine ou du débit sanguin; Détermination combinée du pouls, du rythme cardiaque, de la pression sanguine; Evaluation d'un état cardio-vasculaire non prévue ailleurs, p.ex. utilisant la combinaison de techniques prévues dans le présent groupe et des techniques d'électrocardiographie; Sondes cardiaques pour mesurer la pression sanguine
77.
DEVICES, METHODS AND SYSTEMS FOR EAR-BASED PHOTOACOUSTIC PLETHYSMOGRAPHY
An apparatus may be configured to control a light source system residing in or on a first support structure portion of the apparatus to transmit light through an ear volume residing between a first ear portion and a second ear portion. The apparatus may be configured to receive, from a receiver system residing in or on a second support structure portion of the apparatus proximate the second ear portion, receiver system signals corresponding to acoustic waves caused by a photoacoustic response to light emitted by the light source system of a) a blood vessel residing within the ear volume, b) blood within the blood vessel, or a combination thereof. The control system may be configured to estimate one or more cardiac features based, at least in part, on the receiver system signals.
This disclosure provides methods, components, devices and systems for enhanced downlink and uplink scheduling based on assistance information related to PDCP status reports. Some aspects specifically relate to a wireless communication system including a disaggregated base station architecture in which a CU provides a DU assistance information related to PDCP status reports from which assistance information the DU may determine appropriate downlink or uplink scheduling start timing for a UE. In some examples, the DU obtains from the CU assistance information indicating an unreceived PDCP SDU at a UE or the CU, and sends downlink data or an uplink grant to the UE based on the assistance information. The CU may deliver the downlink data to the DU prior to sending the assistance information or obtain uplink data from the DU after sending the assistance information. Duplication of PDCP SDU transmissions and unnecessarily extended scheduling delays may thus be minimized.
In some aspects, a network node may transmit access information indicating one or more probability values that are respectively associated with one or more network nodes. The probability values may be selected to “guide” or “steer” one or more UEs to select an anchor node and/or a non-anchor node for communication. As an illustrative example, if a first probability value associated with a first network node is 0.75, and if a second probability value associated with a second network node is 0.25, a UE may select the first network node with a probability of 75 percent and may select the second network node with a probability of 25 percent. In some implementations, an anchor node of the UE may transmit the access information via a system information block of type one (SIB1) that indicates the probability values.
H04W 48/12 - Distribution d'informations relatives aux restrictions d'accès ou aux accès, p.ex. distribution de données d'exploration utilisant un canal de commande descendant
An apparatus for multi-object tracking determines a current representation of a current object in a current image. The apparatus computes a joint Gaussian distribution between the current representation of the current object and a previous representation stored in one or more memory buffers, wherein the previous representation was determined from a previous image. The apparatus updates the one or more memory buffers based on the joint Gaussian distribution. For example, the apparatus determines whether to remove or replace the previous representation in the one or more memory buffers based on values of a covariance matrix of the joint Gaussian distribution.
B60W 30/09 - Entreprenant une action automatiquement pour éviter la collision, p.ex. en freinant ou tournant
G06V 20/58 - Reconnaissance d’objets en mouvement ou d’obstacles, p.ex. véhicules ou piétons; Reconnaissance des objets de la circulation, p.ex. signalisation routière, feux de signalisation ou routes
81.
TIME SYNCHRONIZATION OF COLLECTING AND REPORTING POWER EVENTS BETWEEN HIERARCHICAL POWER THROTTLING CIRCUITS IN A HIERARCHICAL POWER MANAGEMENT SYSTEM
Hierarchical power estimation and throttling in a processor-based system in an integrated circuit (IC) chip, and related power management and power throttling methods are disclosed. The IC chip includes a processor as well as integrated supporting processing devices for the processor. The hierarchical power management system controls power consumption of devices in the IC chip to achieve the desired performance in the processor-based system based on activity power events generated from local activity monitoring of devices in the IC chip. The circuit levels in the hierarchical power management systems are configured to be time synchronized with each other for the synchronized monitoring and reporting of activity samples and activity power events, and the generation of power limiting management responses to throttle power consumption in the IC chip.
G06F 1/26 - Alimentation en énergie électrique, p.ex. régulation à cet effet
82.
MERGING OF POWER EVENTS RELATED TO ESTIMATED POWER CONSUMPTION OF DIFFERENT DEVICES IN A HIERARCHICAL POWER MANAGEMENT SYSTEM IN AN INTEGRATED CIRCUIT (IC) CHIP TO PERFORM POWER THROTTLING
Hierarchical power estimation and throttling in a processor-based system in an integrated circuit (IC) chip, and related power management and power throttling methods are disclosed. The IC chip includes a processor as well integrated supporting processing devices for the processor. The hierarchical power management system controls power consumption of devices in the IC chip to achieve the desired performance in the processor-based system based on activity power events generated from local activity monitoring of devices in the IC chip. The hierarchical power management system includes a centralized power estimation and limiting (PEL) circuit that is configured to track and merge received power throttle recommendations associated with related activity power events for monitored processing devices to generate one or more power limiting management responses to throttle power consumption of related devices that may be contributing to excess power consumption.
G06F 1/28 - Surveillance, p.ex. détection des pannes d'alimentation par franchissement de seuils
83.
INTEGRATED CIRCUITS (IC) CHIPS INCLUDING THROTTLE REQUEST ACCUMULATE CIRCUITS FOR CONTROLLING POWER CONSUMED IN PROCESSING CIRCUITS AND RELATED METHODS
The processor-based system includes a throttle request accumulate circuit to receive throttle requests, determine a highest or most aggressive throttle value among the throttle requests, and generate a throttle control signal configured to throttle activity in the plurality of processing circuits. Throttle requests have throttle values corresponding to a reduction in activity in at least a portion of the plurality of processing circuits and may correspond to a particular number of cycles of reduced activity in a window of cycles. In addition to reducing response time to local events or conditions compared to waiting for a hierarchical response, the throttle request accumulate circuit accumulates throttle requests from all circuits that adjust or throttle activity in the plurality of processing circuits, and ensures that the net effective throttle controlling activity in the processing circuits at any given time is based on the highest throttle value of those accumulated throttle requests.
A throttle control circuit receives a throttle control signal for controlling power consumption in a plurality of processing segment circuits. The throttle control signal has a throttle control value based on throttle requests from monitoring circuits that have detected power-related events or conditions and correspond to a requested change in activity in the plurality of processing segment circuits. The throttle control circuit receives the throttle control signal in a plurality of throttle administration circuits that each generates a throttle select signal to select an activity control signal for a corresponding processing segment circuit. In each of a first number (N) of consecutive cycles of a clock signal, the activity control signal disables state changes in the corresponding processing segment circuit for a second number (M) of cycles among the first number (N) of consecutive cycles to reduce power consumption in the processing segment circuits.
G06F 1/08 - Générateurs d'horloge ayant une fréquence de base modifiable ou programmable
G06F 1/3228 - Surveillance d’exécution de tâches, p.ex. par utilisation de temporisations d’attente, de commandes d’arrêt ou de commandes d’attente
G06F 1/324 - Gestion de l’alimentation, c. à d. passage en mode d’économie d’énergie amorcé par événements Économie d’énergie caractérisée par l'action entreprise par réduction de la fréquence d’horloge
85.
BROADCASTING POWER LIMITING MANAGEMENT RESPONSES IN A PROCESSOR-BASED SYSTEM IN AN INTEGRATED CIRCUIT (IC) CHIP
Broadcasting power limiting management responses in a processor-based system in an integrated circuit (IC) chip is disclosed herein. In one aspect, an IC chip comprises a processor-based system that includes a power estimation and limiting (PEL) circuit, a Limit Management Throughput Throttle (LMTT) source circuit, a plurality of activity management (AM) circuits, and an LMTT bus communicatively coupling the LMTT source circuit with each AM circuit of the plurality of AM circuits. The LMTT source circuit receives a power limiting management response from a PEL circuit via a communications network of the processor-based system, and generates an LMTT command based on the power limiting management response. The LMTT source circuit broadcasts the LMTT command to each AM circuit of the plurality of AM circuits via the LMTT bus.
An inductor structure includes a first quadrupole inductor, and a second quadrupole inductor, wherein the second quadrupole inductor overlaps the first quadrupole inductor. In certain aspects, the inductor structure may be included in a filter, which may also include one or more capacitors coupled to the inductor structure.
Converting telemetry values into common data formats in a processor-based system in an integrated circuit (IC) chip is disclosed herein. In one aspect, an IC chip comprises a processor-based system that that is configured to receive an input telemetry value from an input source circuit. The processor-based system converts the input telemetry value into a common format telemetry value, wherein a first unit value represented by a least significant bit of the common format telemetry value is greater than one (1) and is based on a quotient of a power of two (2) and a corresponding power of 10. The processor-based system then processes common format telemetry value.
Providing physical register (PR) swap memory renaming in processor-based devices is disclosed herein. In some exemplary aspects, a processor provides an instruction processing circuit comprising a scheduling stage circuit and an execution stage circuit. The scheduling stage circuit comprises a reservation station circuit, while the execution stage circuit comprises a PR swap table storing a plurality of PR swap table entries. The scheduling stage circuit issues a first instruction that is associated with a store dependency ID. The execution stage circuit, in response to the issuing of the first instruction, identifies a PR swap table entry among the plurality of PR swap table entries corresponding to the store dependency ID, retrieves a load dependency ID of the PR swap table entry, and broadcasts the load dependency ID to the reservation station circuit to wake a second instruction that is associated with the load dependency ID.
In some aspects, a device may obtain, via a camera associated with the device, an image that includes one or more objects located within an area of the device. The device may generate a first three-dimensional output based at least in part on the image. The device may obtain, via an audio component associated with the device, an audio input associated with the one or more objects. The device may generate a second three-dimensional output based at least in part on the audio input. The device may detect the one or more objects based at least in part on the first three-dimensional output and the second three-dimensional output. Numerous other aspects are described.
Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first UE may mark a packet with a first QoS indicator, the packet being associated with a communication between the first UE and a second UE, the first QoS indicator being associated with an uplink between the first UE and a first network node, and the first QoS indicator indicating a mapping to a second QoS indicator associated with a downlink between a second network node and the second UE. The UE may transmit, to the first network node via the uplink, the packet. Numerous other aspects are described.
In some aspects, a device may obtain a signal of a vibration sensor. The device may perform compressive sampling of the signal by combining each set of data points, of a plurality of sets of data points of the signal, with a compressive sampling matrix to obtain a plurality of compressive measurements of the signal. The device may determine whether the plurality of compressive measurements are indicative of a person present in a vicinity of the device. The device may cause the device to exit a low-power mode responsive to a determination that the plurality of compressive measurements are indicative of the person present in the vicinity of the device. Numerous other aspects are described.
A method for wireless communication by a UE includes receiving, from a network node, a first message indicating at least a first discontinuous reception (DRX) configuration associated with a DRX cycle at the network node. The DRX cycle may be enabled or disabled in accordance with whether the first DRX configuration is in an activated state. The method also includes receiving, from the network node, a second message indicating a group of uplink (UL) transmission configurations including at least a first UL configuration associated with the activated state of the first DRX configuration and a second UL configuration associated with the deactivated state of the first DRX configuration. The method further includes transmitting, to the network node, a third message in accordance with the first UL configuration in accordance with first DRX configuration being activated or the second UL configuration in accordance with first DRX configuration being deactivated.
Methods, systems, and devices for wireless communications are described. A user equipment (UE) may receive, from a network entity via an optical wireless communication link, a first optical wireless signal using photodetectors positioned on a photodetector panel of the UE. The photodetector panel may include a hole around which the photodetectors are positioned and may be located a first distance from a curved optical device of the UE via which the first optical wireless signal is received. The UE may transmit, to the network entity via the optical wireless communication link, a second optical wireless signal using a light source of the UE that is located a second distance from the curved optical device via which the second optical wireless signal is transmitted. The second optical wireless signal may pass through the hole in the photodetector panel based on the second distance being greater than the first distance.
H04B 10/112 - Transmission dans la ligne de visée sur une distance étendue
H04B 10/40 - Systèmes de transmission utilisant des ondes électromagnétiques autres que les ondes hertziennes, p.ex. les infrarouges, la lumière visible ou ultraviolette, ou utilisant des radiations corpusculaires, p.ex. les communications quantiques Émetteurs-récepteurs
94.
ULTRASONIC SENSOR WITH TUNABLE METAL LAYER THICKNESS TO MATCH ULTRASONIC FREQUENCY
An apparatus includes an ultrasonic sensor stack configured to transmit and receive ultrasonic waves. The ultrasonic sensor stack includes at least a thin film transistor layer, a piezoelectric layer, and a thin electrode layer. The ultrasonic sensor stack further includes a tunable metal layer coupled to the thin electrode layer and an acoustic layer coupled to the tunable metal layer, where the tunable metal layer has a thickness greater than a thickness of the thin electrode layer. The thickness of the tunable metal layer may be configured to match a peak frequency in an ultrasonic frequency range of the ultrasonic waves transmitted by the ultrasonic sensor stack. In some implementations, the tunable metal layer includes a copper layer and the acoustic layer includes polyimide or polyethylene terephthalate.
B06B 1/06 - Procédés ou appareils pour produire des vibrations mécaniques de fréquence infrasonore, sonore ou ultrasonore utilisant l'énergie électrique fonctionnant par effet piézo-électrique ou par électrostriction
Aspects of the disclosure are directed to a lower layer split for a radio access network (RAN) node. In some examples, the number of tiers for the user plane path may be reduced from three to two, which may include redistribution of functionality of a central unit user plane (CU-UP) between two network entities. In some examples, a first network entity of the two network entities may be configured to receive, from a second network entity of the two network entities, a first user plane protocol data unit (UP-PDU) associated with a user plane (UP) protocol session. In some examples, the first UP-PDU includes a first identifier configured to identify the tunnel, a second identifier configured to identify the first flow of UP-PDUs, a third identifier configured to identify the first UP-PDU within the first flow of UP-PDUs, and a first data for transmission to a user equipment (UE).
This disclosure provides methods, devices, and systems for troubleshooting operation of an electronic device, the method comprising by receiving performance data from a plurality of electrical components, and including a portion of the performance data within a dynamic time window. The portion includes event data. The dynamic time window may be manipulated to include dependent event data within the portion. The dependent event data shares an interdependency with the event data. Troubleshooting analysis determined from the interdependency may be output.
Techniques are provided for aligning radio frequency (RF) sensing operations with base station discontinuous reception (DRX) and discontinuous transmission (DTX) cycles. An example method for performing RF sensing operations with a wireless node according to the disclosure includes receiving discontinuous reception or discontinuous transmission information for the wireless node, determining one or more on periods and one or more off periods based on the discontinuous reception or the discontinuous transmission information, performing radio frequency sensing operations with the wireless node during the one or more on periods, and ceasing radio frequency sensing operations with the wireless node during the one or more off periods.
Embodiment systems and methods for dynamically rendering elements in a virtual environment rendered by the computing device may include monitoring interactions of participants in a virtual environment related to an element or elements presented in the virtual environment, identifying an agreement about the element or elements between at least two of the participants based on the interactions, and altering a presentation of the element or elements in the virtual environment based on the agreement by at least two of the participants.
An example method of positioning of a target UE in a presence of one or more RIDs, the method performed by a server and may comprise receiving, from the target UE, information of the one or more distributed RIDs indicating at least one or more positions of the one or more distributed RIDs, wherein the one or more distributed RIDs are used for link enhancement of a wireless link between the target UE and one or more radio access network (RAN) nodes configured for positioning the target UE, and wherein the one or more distributed RIDs are not directly controlled by the server. The method may also comprise positioning the target UE based at least in part on the information of the one or more distributed RIDs.
H04W 64/00 - Localisation d'utilisateurs ou de terminaux pour la gestion du réseau, p.ex. gestion de la mobilité
H04B 7/04 - Systèmes de diversité; Systèmes à plusieurs antennes, c. à d. émission ou réception utilisant plusieurs antennes utilisant plusieurs antennes indépendantes espacées
H04L 5/00 - Dispositions destinées à permettre l'usage multiple de la voie de transmission
100.
LOCATION OF TARGET OBJECT USING WIRELESS RANGING AND USER EQUIPMENT POSITIONS
A method for locating a target object, includes: determining a plurality of position-distance values, each of the plurality of position-distance values includes: a position of a user equipment relative to a reference position; and a distance corresponding to the position of the user equipment, the distance being between the position of the user equipment and the target object measured using one or more wireless ranging signals between the user equipment and the target object, where each position of the user equipment in the plurality of position-distance values is different; and calculating a position of the target object using the plurality of position-distance values, where the position of the target object is relative to the reference position.
G01S 13/76 - Systèmes utilisant la reradiation d'ondes radio, p.ex. du type radar secondaire; Systèmes analogues dans lesquels des signaux de type pulsé sont transmis
