Various embodiments provide a resource allocation method and an apparatus. In those embodiments, a terminal device obtains a first parameter indicating a maximum service data volume to be provided by an access network device for a first service in a first time length; and determines, based on the maximum service data volume, a resource of a media access control protocol data unit MAC PDU, the resource being occupied by buffered data of the first service. In those embodiments, the terminal device determines, based on the maximum service data volume of the first service, the resource of the MAC PDU. Compared with a conventional method, the maximum service data volume of the first service is considered. This helps improve reasonableness of allocating the resource of the MAC PDU to the data of the first service.

A system and a method for a battery power management system for an electric aircraft is disclosed. The system includes at least a flight component of an electric aircraft, at least a battery, wherein the at least a battery is configured power the at least a flight component of the electric aircraft, at least a sensor communicatively connected to the at least a battery and a controller communicatively connected to the at least a sensor. The controller is configured to receive sensor data from the at least a sensor, identify a battery status as a function of the sensor data and a battery threshold, and control the power from the at least a battery to the at least a flight component of the electric aircraft as a function of the battery status, further comprising reducing a torque to the at least a flight component.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) of a group of UEs may receive, from a group member of the group of UEs, traffic information including a transmission schedule associated with traffic of the group member UE. The UE may determine a discontinuous reception configuration for the group of UEs based at least in part on the transmission schedule. The discontinuous reception configuration may include a discontinuous reception schedule for the group of UEs. The UE may transmit, to the group of UEs, the discontinuous reception configuration.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may identify a set of channel state processes scheduled to be performed. The UE may receive a channel state feedback request corresponding to another set of channel state processes. The combination of the set of channel state processes and the other set of channel state processes may be greater than an amount that the UE may process at a given time. The UE may determine a priority for the channel state processes either on an individual or group basis. The UE may determine channel state process (es) to drop based on the determined priorities, and may perform the remaining channel state processes. The UE may generate and transmit a channel state feedback report message based on the performed channel state processes.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may drop a first one or more device-to-device coordination messages for transmission, of a set of device-to-device coordination messages, according to a message dropping criterion in connection with a quantity of device-to-device coordination messages in the set of device-to-device coordination messages exceeding a threshold. The UE may transmit a second one or more device-to-device coordination messages of the set of device-to-device coordination messages, such that a quantity of transmitted device-to-device coordination messages, of the set of device-to-device coordination messages, does not exceed the threshold. Numerous other aspects are described.

According to various embodiments, disclosed are a method by which a terminal simultaneously transmits messages in at least two carriers in a wireless communication system supporting device to device (D2D) communication, and an apparatus therefor. Particularly, disclosed are a method by which a terminal simultaneously transmits messages in at least two carriers, and an apparatus therefor, the method comprising the steps of: independently sensing, by a carrier, a transmission resource, and calculating the ratio of transmission resources, which can be simultaneously transmitted on at least two carriers, on the basis of a result of the sensing by the carrier; setting the sensed transmittable transmission resource as a transmission candidate resource when the calculated transmission resource ratio is greater than or equal to a preset threshold ratio; and selecting a transmission resource to be used for the message transmission in each of at least two carriers within the transmission candidate resource.

This document discloses a solution for scheduling resources in a network using split frequency domain scheduling and time domain scheduling. According to an embodiment, a method for a frequency-domain scheduler comprises: receiving, by the frequency-domain scheduler from a first time domain scheduler employing a first scheduling policy to schedule time domain resources, a first scheduling request comprising a first priority indicator; receiving, by the frequency-domain scheduler from a second time domain scheduler employing a second scheduling policy different from the first scheduling policy, a second scheduling request comprising a second priority indicator provided on the same scale as the first priority indicator; and scheduling, by the frequency-domain scheduler, frequency domain resources to the first time domain scheduler and the second time domain scheduler on the basis of the first priority indicator and the second priority indicator.

According to some embodiments, a method performed by a wireless device for decoding physical shared channels (PSCHs) comprises, for a plurality of PSCHs in a transmission time interval, determining a first PSCH of the plurality of PSCHs at least partially overlaps in time with a second PSCH of the plurality of PSCHs. Based on comparison of a common characteristic of the first PSCH and the second PSCH, the method comprises selecting one of the first PSCH and the second PSCH to decode and decoding the selected PSCH.

According to some embodiments, a method performed by a wireless device comprises receiving (312) an allowed priority level for a logical channel and receiving (314) an uplink grant with a priority indication. In response to the priority indication corresponding to the allowed priority level, the method further comprises transmitting (318) the logical channel in the uplink grant.

Methods, systems, and devices for wireless communications are described. A user equipment (UE) may have a capability to support a number of temporally overlapping sidelink transmissions. The network may transmit first and second signaling that schedule temporally overlapping first and second sidelink transmissions based on first and second configured grants. The UE may transmit at least one of the first or second sidelink transmissions based on whether the first sidelink transmission and the second sidelink transmission are associated with a same beam or different beams and a frequency relationship between the first and second sidelink transmissions. If the UE is not capable of transmitting the first and second sidelink transmissions concurrently, the UE may transmit the sidelink transmission associated with the higher priority. The first and second sidelink transmissions may be scheduled with overlapping frequency resources. The UE may resolve the frequency overlap by reallocating the overlapping frequency resources.