Methods, systems, and devices for wireless communication are described. A user equipment (UE) that is configured to transmit a message to a neighboring UE via multiple formats, identify a service parameter indicative of a format to be used for the message. The UE may convey information indicating the service parameter from a first layer of the UE to a second layer of the UE, wherein the first layer is an upper layer with respect to the second layer. The UE may generate, by the second layer and based at least in part on the information, the message in the format for communicating with the neighboring UE. Other aspects, embodiments, and features are claimed and described.

Methods, systems, and devices for wireless communication are described. A user equipment (UE) that is configured to transmit a message to a neighboring UE via multiple formats, identify a service parameter indicative of a format to be used for the message. The UE may convey information indicating the service parameter from a first layer of the UE to a second layer of the UE, wherein the first layer is an upper layer with respect to the second layer. The UE may generate, by the second layer and based at least in part on the information, the message in the format for communicating with the neighboring UE. Other aspects, embodiments, and features are claimed and described.

Method, systems and devices for determining a transport block size (TBS) are disclosed. The method comprises determining the TBS based on a parameter or a signaling associated with an event of determining an intermediate value of a TBS determination procedure, wherein the parameter or a signaling is available for a wireless terminal supporting a release version, wherein the intermediate value is determined based on a plurality of resource parameters, wherein the plurality of resource parameters comprises at least one of the total number of resource elements allocated to the wireless terminal, a rate , a modulation order, and the number of layers.

A wireless power reception device according to an embodiment of the present document comprises: a power pickup circuit which receives wireless power from a wireless power transmission device; and a communication/control circuit which communicates with the wireless power transmission device and controls the wireless power, wherein the communication/control circuit may transmit and receive application-level messages with the wireless power transmission device by using a data transport stream including an auxiliary data control (ADC) packet and a plurality of continuous auxiliary data transmission (ADT) packets, and transmits a data packet including information about the maximum size of the ADT packet to the wireless power transmission device.

A wireless power reception device according to an embodiment of the present document comprises: a power pickup circuit which receives wireless power from a wireless power transmission device; and a communication/control circuit which communicates with the wireless power transmission device and controls the wireless power, wherein the communication/control circuit may transmit and receive application-level messages with the wireless power transmission device by using a data transport stream including an auxiliary data control (ADC) packet and a plurality of continuous auxiliary data transmission (ADT) packets, and transmits a data packet including information about the maximum size of the ADT packet to the wireless power transmission device.

When data is to be transmitted, the amount of data regarding the attribute of the data is reduced. Upon a connection with a server apparatus being established, a requesting unit transmits a request that includes attribute information indicating the attribute of a data group, to the server apparatus via the connection. An acquisition unit acquires data. An addition unit adds, to unit data that includes the acquired data, an identifier that identifies the data group to which the unit data belongs, and that is associated with the connection. A transmission unit that transmits the unit data to which the identifier has been added, to the server apparatus via the connection.

A method and a system for optoelectronic matching are disclosed. The method comprises the steps of: S1, enabling an electrical port of a first optoelectronic device to auto-negotiate with a first electrical port to obtain the highest supported speed of the first electrical port, and enabling an electrical port of a second optoelectronic device to auto-negotiate with a second electrical port to obtain the highest supported speed of the second electrical port; S2, encapsulating, by an optical port of an optoelectronic device, a current speed and the negotiated highest supported speed of an opposite end in a transmission protocol, and sending the same to an optical port of another optoelectronic device; S3, obtaining a target speed based on the highest supported speed of the first electrical port and the highest supported speed of the second electrical port; S4, determining whether the current speed is equal to the target speed, respectively.

A method and a system for optoelectronic matching are disclosed. The method comprises the steps of: S1, enabling an electrical port of a first optoelectronic device to auto-negotiate with a first electrical port to obtain the highest supported speed of the first electrical port, and enabling an electrical port of a second optoelectronic device to auto-negotiate with a second electrical port to obtain the highest supported speed of the second electrical port; S2, encapsulating, by an optical port of an optoelectronic device, a current speed and the negotiated highest supported speed of an opposite end in a transmission protocol, and sending the same to an optical port of another optoelectronic device; S3, obtaining a target speed based on the highest supported speed of the first electrical port and the highest supported speed of the second electrical port; S4, determining whether the current speed is equal to the target speed, respectively.

A method for configuring a protocol in a virtual private network (VPN) service environment, the method including receiving, from a user device, device information associated with operation of the user device during an established VPN connection; determining, based at least in part on the device information, a given VPN protocol from among a plurality of VPN protocols for utilization during the established VPN connection; and transmitting, to the user device, information associated with the given VPN protocol to enable the user device and a VPN server to utilize the given VPN protocol during the established VPN connection. Various other aspects are contemplated.

An information acquiring method is provided. The method is applied to a first network side device. The method includes acquiring second capability information for processing data sent by at least one second network side device. According to embodiments of the present disclosure, in addition to communicating with a terminal, the first network side device can acquire the second capability information for processing data from at least one second network side device. Based on the second capability information, the first network side device can determine the capability of the second network side device for processing data. Further, when there is to-be-processed data in the first network side device, the first network side device can determine, according to the second capability information, which second network side device can process the data, and then can send the data to the second network side device for processing.