Aspects of the present disclosure include methods and devices for informing a base station of autonomously selected SL resources to allow the base station to adjust the DL transmission to mitigate the degradation of the reception of a DL transmission due to self-interference that overlaps with a SL transmission. A device may be configured to select resources for a SL transmission and to transmit, in an UL transmission to a base station, an indication of the resources selected for the SL transmission. A base station may be configured to receive, in an UL transmission, an indication of resources selected for a SL transmission from a UE, and to transmit, based on the indication of the resources selected for the SL transmission, at least one DL transmission that overlaps in time with the SL transmission.

A serving gateway device (SGW) can cause establishment of a requested connection to a first PDN for a user device. The SGW can cause suspension of the connection to the first PDN and establishment of a requested connection to a second PDN for the user device based on a requested connection to a second PDN for a user device. The SGW can cause termination of the connection to the second PDN based on the respective end time associated with the second PDN, and cause restoration of the connection to the first PDN after the connection to the second PDN is terminated.

The disclosed technology provides a system and method for allocating resource blocks to a mobile device based on a traffic priority of traffic between the network and the mobile device. Traffic priority can be determined based on quality of service (QOS) identifiers or network slice identifiers. The highest priority users are allocated inner resource blocks with the lowest allowed maximum power reduction (MPR), the lowest priority users are allocated edge resource blocks with the highest allowed MPR, and the intermediate priority users are allocated outer resource blocks.

There is disclosed a method of operating a wireless device in a wireless communication network, the wireless device being triggered for transmitting first signaling representing first information on a first resource structure, second signaling representing second information on a second resource structure and third signaling representing third information on a third resource structure, the second resource structure at least partially overlapping with the first resource structure and/or the third resource structure, the second resource structure being associated to a lower priority of transmission than the first resource structure and the third resource structure, the method including transmitting the first information and the third information, omitting transmitting the second signaling and/or second information. The disclosure also pertains to related devices and methods.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may support separate feedback for multiple semi-persistent scheduling (SPS) configurations. The UE may be configured with a set of uplink resources that includes a first subset of uplink resources associated with a first control resource set (CORESET) pool and a second subset of uplink resources associated with a second CORESET pool. The UE may receive first and second SPS downlink transmissions associated with the first and second CORESET pools, respectively. The UE may select a first uplink resource from the first subset of uplink resources and a second uplink resource from the second subset of uplink resources based on the SPS downlink transmissions or a payload of a respective feedback transmission. The UE may transmit one or more feedback transmissions in the first uplink resource or the second uplink resource.

Methods, systems, and devices for wireless communications are described. A wireless communications system may support quasi co-location prioritization techniques. A user equipment (UE) may receive control signaling to monitor at least one control resource set. The UE may receive a control message to monitor a shared data channel that overlaps in time with the at least one control resource set. For example, the control message may schedule a downlink message via the shared data channel in a time period of the at least one control resource set. The UE may monitor the at least one control resource set, the shared data channel, or both based on one or more priority rules. A priority rule may indicate to monitor a corresponding control resource set, shared data channel, or both based on whether the quasi co-location assumptions of the various control resource sets or shared data channels are the same or different.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may identify a set of resources that are designated for sidelink inter-UE coordination information based at least in part on a sidelink resource pool configuration. The UE may transmit or monitor for a communication that includes inter-UE coordination information in a resource of the set of resources. Numerous other aspects are described.

Systems and methods for managing priority exceptions for shared spectrum radio services are provided. In one embodiment, a shared spectrum radio services system comprises: a spectrum access system (SAS) configured to adjust transmit power levels of one or more radios, wherein the one or more radios transmit on a protected frequency of a shared spectrum, wherein the SAS is associated with a protection area that comprises at least one dynamic incumbent RF system that transmits on the protected frequency; and wherein the SAS applies a standard transmit expiration time parameter to the one or more radios, the standard transmit expiration time parameter indicating a time of day at which authorization to transmit on the protected frequency expires; and wherein the SAS is configured to execute a transmit expiration parameter exception protocol to override the standard transmit expiration time parameter for at least one of the one or more radios.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a first user equipment (UE) may receive, from a second UE, coordination information indicating a non-preferred sidelink resource. The UE may transmit a communication on the non-preferred sidelink resource when a condition associated with the communication is satisfied. Numerous other aspects are described.

A system for controlling power distribution within a vehicular communication network, including a power source equipment comprising a first port in communication with a network node module of a device, and a Power over Ethernet (POE) management module. The POE management module is configured to enable POE to the device via the first port, monitor a current draw of the device, determine whether the current draw of the device exceeds a threshold, and disable POE to the device, responsive to determining that the current draw exceeds the threshold.