A function invoking method, applied to a first device, includes: acquiring a function executing instruction; parsing device capabilities required to execute the instruction; and invoking a capability of at least one second device to execute the function executing instruction to implement a corresponding function, the second device being another device different from the first device. As such, the capabilities can be invoked between devices, such that the interconnection and intercommunication between devices can be achieved.

A communication method includes a first network element receiving identity information of a terminal from a second network element, where the identity information includes an identity of the terminal or an identity of a group of the terminal; the first network element obtaining, based on the identity information, type information of a serving network corresponding to the identity information; and the first network element sending API information of the first network element based on the type information. Based on this communication method, the second network element can select an available API based on the API information or the type information of the serving network and invoke the available API.

Methods, apparatuses, and computer readable media for extreme high throughput (EHT) physical layer data rate. An apparatus of an access point (AP) comprising processing circuitry configured to encode an EHT capabilities element, the EHT capabilities element comprising a maximum media access control (MAC) protocol data unit (MPDU) in an aggregated MPDU (A-MPDU) length exponent subfield. The processing circuitry further configured to configure the AP to transmit the EHT capabilities element to a station (STA), and determine a maximum A-MPDU length based on two raised to a power of a constant plus a value of the A-MPDU length exponent subfield. The processing circuitry further configured to encode MPDUs in an A-MPDU, where the A-MPDU is encoded to be less than or equal to the maximum A-MPDU length.

Disclosed is an electronic device including a communication module configured to support a first communication protocol and a second communication protocol, a processor operably connected to the communication module, and a memory storing instructions that enable the processor to establish a first connection based on the first communication protocol with a first external electronic device, identify a second external electronic device and a connection state of the second external electronic device using the second communication protocol, produce a first message, based at least in part on the first connection and the connection state of the second external electronic device, transmit the produced first message to the second external electronic device using the second communication protocol, receive, from the second external electronic device, a second message in response to the first message using the second communication protocol, and schedule a data link based on the second communication protocol.

Disclosed is an electronic device including a communication module configured to support a first communication protocol and a second communication protocol, a processor operably connected to the communication module, and a memory storing instructions that enable the processor to establish a first connection based on the first communication protocol with a first external electronic device, identify a second external electronic device and a connection state of the second external electronic device using the second communication protocol, produce a first message, based at least in part on the first connection and the connection state of the second external electronic device, transmit the produced first message to the second external electronic device using the second communication protocol, receive, from the second external electronic device, a second message in response to the first message using the second communication protocol, and schedule a data link based on the second communication protocol.

An operation method of a network device and a control chip of the network device are provided. The network device receives an input signal through a fiber medium. The operation method includes the following steps: setting a target speed of the network device to a first speed; transmitting and/or receiving a data at the first speed; and setting the target speed of the network device to a second speed which is different from the first speed when the amplitude or energy of the input signal is not greater than a threshold.

An improved autonegotiation approach includes determining that a negotiated rate between a first network device and a second network device exceeds data transfer capacity over a network path downstream of the second network device. In response, a configuration message is generated and transmitted to the first network device. When received by the first network device, the configuration message causes the first network device to limit data transfer between the first network device and the second network device to no more than the downstream data transfer capacity.

An improved autonegotiation approach includes determining that a negotiated rate between a first network device and a second network device exceeds data transfer capacity over a network path downstream of the second network device. In response, a configuration message is generated and transmitted to the first network device. When received by the first network device, the configuration message causes the first network device to limit data transfer between the first network device and the second network device to no more than the downstream data transfer capacity.

A method and apparatus for processing a local hot spot, an electronic device and a storage medium. A specific implementation of the method includes: acquiring, at set times, standalone data of each node device and process data of each process within the each node device in a cloud computing environment; detecting, based on the standalone data of each node device and the process data of each process within the each node device, and pre-acquired historical fault data corresponding to each local hot spot, whether each local hot spot satisfies a preset processing condition corresponding to each local hot spot; and processing the local hot spot satisfying the processing condition, in response to detecting that a local hot spot satisfies the corresponding processing condition.

Providing multi-device services using a network application programming interface. The server obtains the accessibility in-ormation which indicates the plurality of devices and their capabilities. The plurality of devices have a same user identity. In this way, the server can take control on devices of participate for MuD services.