Methods and apparatus to manage a dynamic deployment environment including one or more virtual machines is provided herein. A disclosed example includes involves: scanning, by executing a computer readable instruction with a processor, the virtual machines in the deployment environment to identify a service installed on any of the virtual machines; determining, by executing a computer readable instruction with the processor, the identified service corresponds to a service monitoring rule; determining, by executing a computer readable instruction with the processor, that a monitoring agent identified by the service monitoring rule is installed on the one or more virtual machines on which the service is installed; and configuring the monitoring agent, by executing a computer readable instruction with the processor, to monitor the service in accordance with the service monitoring rule on the at least one of the virtual machines on which the service is installed.

A method includes: receiving, by a session management function (SMF), a first identifier transmitted by user equipment (UE) in a protocol data unit (PDU) session establishment process (320); selecting a first edge application server discovery function (EASDF) for the UE according to the first identifier (340); and transmitting address information of the first EASDF to the UE (360).

A method includes: receiving, by a session management function (SMF), a first identifier transmitted by user equipment (UE) in a protocol data unit (PDU) session establishment process (320); selecting a first edge application server discovery function (EASDF) for the UE according to the first identifier (340); and transmitting address information of the first EASDF to the UE (360).

Embodiments of this application provide a dual Wi-Fi connection method and an electronic device. While exchanging data with a first access point, a first electronic device in the embodiments of this application may quickly establish a Wi-Fi connection with a second access point based on an association relationship between the first access point and the second access point, and after establishing the Wi-Fi connection with the second access point, exchange data with the first access point and the second access point simultaneously, to effectively shorten a duration taken for accessing the second access point, improve the throughput of the first electronic device and the stability of data transmission, and further improve the user experience.

The present disclosure relates to systems, methods, and computer-readable media for peer booting server nodes on an edge zone. For example, an edge zone may include data plane devices capable of hosting virtual machines and other cloud-based services thereon that provide low-latency services to customers of a cloud computing system. Systems described herein implement an operating system (OS) provisioning system that, in combination with a peer booting system on a server node, facilitates instantiation of an OS on the server node as well as enabling the server node to act as an OS provider service to other server nodes on the edge zone. The systems disclosed herein facilitate fast installation of OS services without overutilizing limited bandwidth resources of a virtual network that connects the server nodes with control plane devices remotely maintained at a datacenter.

Systems are methods are described which allow for “zero-touch” provisioning (ZTP) to be used to seamlessly bring up devices such as Gateways/Access Points/Switches or any other networking devices connected over different uplink types such as aggregated links (Static LAG, LACP), trunk ports, and the like. Provisioning is adapted specifically for trunk and/or LACP ports in order to maintain the automation and optimization benefits typically provided by ZTP. A method can include transmitting a discover message, and receiving a response message based on the discover message. Then, determining whether a pre-defined extension is included in the response message that indicates a port type and a virtual local area network (VLAN) configuration. Automatic configuration of one or more ports and a VLAN can be performed as indicated by the pre-defined extension. Thus, ZTP can be restarted in accordance with the configuration of the network device.

Systems and methods are disclosed for enforcing at least one rule associated with a geofence. At least one device is constructed and configured in network communication with a server platform and a database. The server platform defines at least one geofence for a region of interest and specifies at least one rule associated with the at least one geofence, thereby creating a rule-space model for the region of interest. The at least one geofence comprises a multiplicity of geographic designators with each geographic designator assigned with a unique IPv6 address. The at least one device receives at least one notification signal regarding the at least one rule from the at least one server platform and implements the at least one rule when the at least one device is within a predetermined distance from the at least one geofence for the region of interest.

A network includes at least two nodes that employ a routing protocol to communicate across a network. One of the nodes is a parent node and another of the nodes is a child node of the parent node. An address generator assigns a unique network address to the child node by appending an address value of a number of bits to a parent address of the parent node to create the unique network address for the child node.

A network includes at least two nodes that employ a routing protocol to communicate across a network. One of the nodes is a parent node and another of the nodes is a child node of the parent node. An address generator assigns a unique network address to the child node by appending an address value of a number of bits to a parent address of the parent node to create the unique network address for the child node.

A WI-FI hotspot recommendation method includes scanning a WI-FI hotspot, determining an Internet-accessible hotspot in WI-FI hotspots that are obtained by means of scanning, determining network quality obtained when the terminal accesses a network by using the Internet-accessible hotspot, and displaying an identifier of the Internet-accessible hotspot and an identifier that indicates the network quality obtained when the terminal accesses the network by using the Internet-accessible hotspot.