Certain aspects of the present disclosure provide a technique for determining resources for multiplexing uplink control information (UCI) during a full duplex (FD) operation. In one example, a user equipment (UE) implements the technique to determine resources for multiplexing UCI in a physical uplink shared channel (PUSCH) when resources for the PUSCH at least partially overlaps with resources for a scheduled physical downlink shared channel (PDSCH), and transmit the PUSCH with the UCI multiplexed on the determined resources.

Certain aspects of the present disclosure provide a technique for determining resources for multiplexing uplink control information (UCI) during a full duplex (FD) operation. In one example, a user equipment (UE) implements the technique to determine resources for multiplexing UCI in a physical uplink shared channel (PUSCH) when resources for the PUSCH at least partially overlaps with resources for a scheduled physical downlink shared channel (PDSCH), and transmit the PUSCH with the UCI multiplexed on the determined resources.

Methods, systems, and devices for wireless communications are described. Generally, a transmitting user equipment (UE) may send packets, via a sidelink channel, to a receiving UE based on a network coding configuration received from a base station. The receiving UE may decode the packet(s) according to the network coding configuration, and transmit information that indicates an efficiency of the network coding configuration for the sidelink channel to the base station and/or the transmitting UE. The base station may generate and transmit, to the receiving UE and the transmitting UE, one or more updated parameters for the network coding configuration based on the received information that indicates the efficiency of the network coding configuration for the sidelink channel. The transmitting UE may encode, and the receiving UE may decode, future sidelink packets based on the one or more updated parameters.

Methods, systems, and devices for wireless communications are described. Generally, a transmitting user equipment (UE) may send packets, via a sidelink channel, to a receiving UE based on a network coding configuration received from a base station. The receiving UE may decode the packet(s) according to the network coding configuration, and transmit information that indicates an efficiency of the network coding configuration for the sidelink channel to the base station and/or the transmitting UE. The base station may generate and transmit, to the receiving UE and the transmitting UE, one or more updated parameters for the network coding configuration based on the received information that indicates the efficiency of the network coding configuration for the sidelink channel. The transmitting UE may encode, and the receiving UE may decode, future sidelink packets based on the one or more updated parameters.

Provided herein is a method for transmitting, by a first apparatus (100), location information in a wireless communication system. The method may include the steps of transmitting PSCCH to a second apparatus (200); and transmitting PSSCH related to the PSCCH to the second apparatus (200).

Systems, procedures, and instrumentalities are disclosed for distributed control in wireless systems, such as 5G flexible radio access technology (RAT) (5gFLEX). Example procedures are provided for WTRU and network operation associated with a distributed control plane architecture, connectionless data transfer and dedicated system information acquisition. Distributed control may be provided, for example, by replicating a plurality of access control functions (ACFs) using a plurality of instances in a plurality of different transmission/reception points (TRPs) with multi-connectivity. The plurality of TRPs may concurrently provide control services to a WTRU. Centralized control functions may manage core network connectivity and/or a plurality of user plane instances for the WTRU and/or may facilitate coordination between the plurality of ACF instances for the WTRU in the plurality of different TRPs of the WTRU's configuration.

Systems, procedures, and instrumentalities are disclosed for distributed control in wireless systems, such as 5G flexible radio access technology (RAT) (5gFLEX). Example procedures are provided for WTRU and network operation associated with a distributed control plane architecture, connectionless data transfer and dedicated system information acquisition. Distributed control may be provided, for example, by replicating a plurality of access control functions (ACFs) using a plurality of instances in a plurality of different transmission/reception points (TRPs) with multi-connectivity. The plurality of TRPs may concurrently provide control services to a WTRU. Centralized control functions may manage core network connectivity and/or a plurality of user plane instances for the WTRU and/or may facilitate coordination between the plurality of ACF instances for the WTRU in the plurality of different TRPs of the WTRU's configuration.

A QCL determining method includes: in a case that there are L first TCI codepoints in TCI codepoints activated by a MAC CE, determining, according to detected DCI, a QCL relationship of M times of PDSCH transmission scheduled by the DCI. both L and M are positive integers, each first TCI codepoint indicates P TCI states, and P is an integer greater than 1.

Methods and apparatuses for scheduling and indicating scheduling information in a wireless local area network (WLAN). A station (STA) includes a transceiver configured to receive a header for a protocol data unit and a controller configured to identify common information for a plurality of STAs that are scheduled in the WLAN from a common field in the header and to identify user-specific information for the STA from a user-specific field in the header that follows the common field. An access point (AP) includes a controller configured to include common information for a plurality STAs that are scheduled in the WLAN in a common field in a header of a protocol data unit, and to include user-specific information for the STAs in a user-specific field in the header that follows the common field. The AP also includes a transceiver configured to transmit the protocol data unit including the header.

Embodiments herein relate to e.g. a method performed by a radio network node for handling communication of a wireless device in a wireless communication network. The radio network node receives, from the wireless device, a preamble of a random access procedure on a first carrier or a second carrier. The radio network node further transmits, to the wireless device, a random access response (RAR), wherein the RAR or transmission of the RAR indicates the carrier out of the first carrier and the second carrier the preamble was received on.