A bandwidth scheduling method. The method includes a bandwidth allocation apparatus receives a bandwidth request message sent by a message conversion apparatus, where the bandwidth request message includes a bandwidth requirement, and the bandwidth requirement is a bandwidth required by a user-side apparatus for completing transmission of a service. The bandwidth allocation apparatus calculates first bandwidth grant information and second bandwidth grant information based on the bandwidth requirement, where the first bandwidth grant information is information about a bandwidth that is allocated to the user-side device, and the second bandwidth grant information is information about a bandwidth that is allocated to a second access device. The bandwidth allocation apparatus sends the first bandwidth grant information to the user-side device, and the bandwidth allocation apparatus sends the second bandwidth grant information to the second access device by using a first access device.

The present disclosure relate to allocating electronic resources. In some arrangements, a server configures allocable electronic resources for a live streaming room in response to receiving a first configuration request from a first client. The first configuration request is configured to indicate a first configuration operation performed by an anchor to the live streaming room, and the allocable electronic resources are associated to a target commodity corresponding to the live streaming room. The server acquires an allocation request sent by a second client, wherein the allocation request is triggered by an interactive operation of an audience of the second client in the live streaming room. The server allocates an electronic resource from the allocable electronic resources to the audience of the second client, in response to the allocation request, wherein the allocated electronic resource is used by the audience for completing an order operation about the target commodity.

Methods, apparatus, systems, and articles of manufacture are disclosed to facilitate network interface device based edge computing. A disclosed example includes threshold analyzer circuitry to identify a resource inactivity threshold for first a resource associated with the network interface device, the resource inactivity threshold indicative of a duration of time that the first resource is not utilized; resource allocator circuitry to determine that the resource meets the resource inactivity threshold; and virtual platform manager circuitry to generate a virtual platform associated with the network interface device based on the determination, the generated virtual platform to reduce latency in execution of a function.

A network device may receive a request to connect to a network from a user equipment device and perform a first admission control procedure to determine whether to temporarily allow the user equipment device to connect to the network. The network device may receive information identifying a slice associated with the user equipment device in response to determining to temporarily allow the user equipment device to connect to the network. The network device may perform a second admission control procedure to determine whether to allow the user equipment device to connect to the network. The second admission control procedure is based on the slice associated with the user equipment device. The network device may allocate network resources to the user equipment device in response to determining to allow the user equipment device to connect to the network.

An information processing method, an electronic device, and a storage medium are provided, which are related to the fields of big data, cloud computing, automatic driving, and the like. The specific implementation includes: receiving a data acquisition task and an acquisition strategy issued by a cloud; analyzing the acquisition strategy to obtain priority information of the acquired data for the data acquisition task; and taking the priority information as an importance degree identifier corresponding to the acquired data, and performing preferential transmission after data acquisition and data screening according to the importance degree identifier.

Systems and methods to manage and regulate the requests of multiple proxy clients are disclosed. In one aspect, the system and methods disclosed herein aids in configuring proxy server(s) with a rate-limit functionality. Configuration of the rate-limit functionality may be realized by, but not limited to, installing configuration file(s) and/or software application(s) on the proxy server(s). The configuration provides information about the list of restricted and unrestricted domains and their respective request limit specification in a given time frame. Therefore, each time before a proxy server forwards the clients' requests to a target domain, the proxy server checks and ensures that the request count to the particular target domain is well within the limit specified in the request limit specification. Thus, the embodiments described herein aid in preventing the IP addresses of proxy service providers from being blocked or denied from the target websites.

Disclosed are a method and device for transmitting a synchronization signal block (SSB), and a storage medium. The method comprises: when an SSB is to be transmitted in an unlicensed band, lengthening a time window for transmission of an SSB; and transmitting the SSB in the lengthened time window. Implementing the solution of the present invention can increase a success rate of SSB transmission.

Example methods, apparatus, systems, and articles of manufacture (e.g., physical storage media) to facilitate time-spaced messaging for network communications are disclosed. An example method may include receiving a plurality of messages at a message rate. The method may further include determining a number of the plurality of messages a network device is unable to process. The method may further include determining, based on the number, a miss rate associated with the plurality of messages. The method may further include determining whether the miss rate exceeds a threshold miss rate and, if the miss rate is determined to exceed the threshold miss rate, determining a time delay based on the miss rate and message rate, and applying the first time delay to at least one message received subsequent to the plurality of messages.

The disclosure provides a method for implementing link aggregation. Multiple wireless networks are obtained by performing network search. Each wireless network corresponds to a respective access point device and a respective historical record of network resource allocation corresponding to a link aggregation. A respective target historical record of network resource allocation corresponding to each of at least one foreground application is determined from multiple historical records of network resource allocation. Multiple target historical records are obtained. Each wireless network corresponds to a respective target historical record. A priority order of the wireless networks is determined based on the multiple target historical records. A link aggregation is performed by selecting at least two wireless networks from the multiple wireless networks based on the priority order.

Embodiments of this application provide a service continuity implementation method, an apparatus, and a system, to ensure service continuity in an application layer data packet transmission process. The method includes: receiving, by a session management network element, first survival time information from a policy control network element, where the first survival time information indicates duration of a service that survives when a correct data packet is not received; determining, by the session management network element, the first survival time information as a binding parameter of a quality of service QoS flow; and sending, by the session management network element, second survival time information to an access network device, where the second survival time information is used to indicate the duration; and after receiving the second survival time information from the session management network element, scheduling, by the access network device, a data packet based on the second survival time formation.