A system, method and apparatus for wireless communications is provided. A user equipment (UE) receives, from a first base station, one or more first messages that include measurement configuration parameters and sidelink parameters associated with a first cell. The UE establishes a sidelink with a second UE based on the sidelink parameters and transmits, to the first base station, a measurement report based on the measurement configuration parameters. Responsive to the measurement report, the UE receives a second message comprising second configuration parameters of a second cell of a second base station. The second configuration parameters do not comprise sidelink parameters. The UE then switches from the first cell of the first base station to the second cell of the second base station. The sidelink of the first cell is handed over to an uplink of the second cell.

A network acceleration method, an electronic device, and a storage medium, which relate to the field of network communication technologies, so as to reduce freezing phenomena during video playback. The method includes: when an electronic device runs an application that does not include a peer-to-peer (P2P) flow, a data flow that requires high network quality may be switched to another network with better quality when quality of a currently used network is poor. When the electronic device runs an application that includes a P2P flow, and when a currently used network is poor, because it is difficult to switch the P2P flow to another network with better quality, all data flows of the electronic device may be switched to the another network, thereby reducing video freezing phenomena caused by a difficulty of switching the P2P flow to the another network with better quality.

An embodiment provides an operation method of a sidelink reception terminal in a wireless communication system, the method comprising the steps of: receiving a first physical sidelink shared channel (PSSCH) and a second PSSCH by a sidelink reception terminal; and transmitting feedbacks for the first PSSCH and the second PSSCH through a first physical sidelink feedback channel (PSFCH) resource and a second PSFCH resource, respectively, by the sidelink reception terminal, wherein the first PSSCH and the second PSSCH are received in different slots, and a first PSFCH related to the first PSSCH and a second PSFCH related to the second PSSCH are transmitted through different frequency resources within an identical time resource area.

Systems and techniques are provided for distributed processing. For instance, a process can include transmitting a discovery message, receiving a response to the discovery message, the response including an identifier of a neighboring device, transmitting an offloading request to an offloading server, the offloading request including the identifier of the neighboring device, receiving, from the offloading server, an indication that the neighboring device is selected to perform offloaded processing, transmitting data for processing to the neighboring device, receiving, from the neighboring device, processed data, and transmitting an indication of an amount of completed offloaded processing.

A method in a base station of a cellular radio system and a base station using the same are provided. The method comprises: obtaining at least one access control parameter for a device-to-device, D2D, based access; and transmitting a message including said at least one access control parameter to one or more terminal devices. Also provided are a method in a terminal device of a cellular radio system and a terminal device using the same. The method comprises: receiving a message from a base station of the cellular radio system, wherein said message includes at least one access control parameter for a device-to-device, D2D, based access; determining whether the D2D based access is allowed or barred based on the at least one access control parameter; and initiating a D2D based access in response to determining that the D2D based access is allowed.

A communication device can have a peer-to-peer communication application installed on it. The device can be configured to detect at least one other communication device including the peer-to-peer communication application, and may be configured to set up a connection with the detected communication device. The device can be configured to, in response to a request to set up peer-to-peer communication sent to the first device on a predetermined port and via a predetermined protocol by a second detected device exchange with the second device information required for setting up peer-to-peer communication with the second device, and to set up the peer-to-peer communication. The peer-to-peer communication application can be configured to send, on the predetermined port and via the predetermined protocol a request to set up peer-to-peer communication to a third detected communication device.

A communication method and a communications apparatus to transmit data of V2X services on appropriate frequency bands, where the method includes: A transmit end determining a layer-2 address pair of a first V2X service based on a frequency band of the first V2X service, where the layer-2 address pair of the first V2X service includes a source layer-2 address of the first V2X service and a destination layer-2 address of the first V2X service, and where the layer-2 address pair of the first V2X service corresponds to the frequency band of the first V2X service; and the transmit end sending data of the first V2X service to a receive end on the frequency band of the first V2X service based on the layer-2 address pair of the first V2X service.

The present disclosure relates to the field of wireless communication, is applied to a wireless local area network supporting the 802.11 series standards, for example, the 802.11be (EHT) standard, and particularly relates to an information indication method for a P2P link and a related apparatus. The method includes: A STA/non-AP MLD sends a QoS characteristics element to an AP/AP MLD, where the QoS characteristics element carries first indication information indicating a physical layer rate of a P2P link, and a direction subfield in the QoS characteristics element indicates that a data direction is the P2P link. According to embodiments of the present disclosure, an AP side may reuse uplink and downlink time allocation algorithms.

An aspect of the present disclosure provides a method of a user device in a wireless communication system, the method comprising: receiving, on one bandwidth part (BWP) among multiple BWPs, multiple discovery signals; on the basis of a delay spread value of each of the multiple discovery signals, transmitting, on the one BWP, allocation information of BWPs remaining after excluding the one BWP among the multiple BWPs; and receiving, on the remaining BWPs, multiple sidelink control signals and data signals, wherein it is configured that only an extended CP is to be used on the one BWP, and only a normal CP is to be used on the remaining BWPs. The user device is an autonomous driving vehicle or is included in an autonomous driving vehicle.

The present disclosure is directed to systems and methods for performing load balancing and message routing by a device intermediary to a plurality of short message peer to peer (SMPP) clients and a plurality of SMPP servers. The device can receive a request from an SMPP client to establish an SMPP session, replace a first sequence identifier in the request with a second sequence identifier generated by the device, and store a mapping of the second sequence identifier to the first sequence identifier. The device can select an SMPP server to forward the request with the second sequence identifier and receive a response from the SMPP server with the second sequence identifier. The device can identify, from the mapping, the first sequence identifier and the connection to the SMPP client using the second sequence identifier to forward the SMPP response with the first sequence identifier.