Disclosed are various examples of an action framework for configuring a gateway to perform actions on the gateway itself or in conjunction with connected IoT devices. In some examples, a command is transmitted from a management service to a gateway device to permit a gateway client application to execute on the gateway device. A command to register an action in association with the gateway client application is also transmitted. The management service then commands the gateway device to perform the action, and receives an action results message with information about the action.

Disclosed herein are a method and apparatus for managing log information in a machine-to-machine (M2M) system, and a method for operating an M2M device in an M2M system may include receiving a first message for requesting to create a log management rule, creating storage for storing the log management rule and log information to be generated according to the log management rule, and setting a reference relationship between the log management rule and the storage.

Receiving a first request message from a first apparatus through a first secure channel, where the first request message includes an identifier of an electronic control unit of a vehicle; obtaining a first key based on the identifier and security information of the first secure channel; and establishing a second secure channel with the electronic control unit based on the first key, where the second secure channel is used for communication between a cloud server and the electronic control unit.

A method of establishing streams within a QUIC connection implemented by a first network device, comprising: transmitting a first open message through the QUIC connection to a second network device, the first open message identifying a protocol; receiving a second open message through the QUIC connection from the second network device in response to transmitting the first open message, the second open message identifying the protocol; and establishing a first stream between the first network device and the second network device within the QUIC connection for the protocol identified in the first open message and in the second open message.

Systems, devices, and techniques described herein relate to efficient Evolved Packet System (EPS) fallback. A method may include receiving a rejection message that indicates a rejection to set up a call through a 5th Generation (5G) network by a 5G Radio Access Network (RAN). In response to receiving the rejection message, the method may include transmitting a request to establish a dedicated bearer through a 4th Generation (4G) network. A confirmation that the second dedicated bearer has been established through the 4G network may be received within a predetermined time after transmitting the request.

A system, server, and method of DTMF detection in a VoIP network.

A system, server, and method of DTMF detection in a VoIP network.

A method of a 5.sup.th Generation media streaming uplink (5GMSu) application function (AF) is provided. The method includes receiving, from a 5GMSu application provider, a first request to create a content egest template (CET), creating the CET based on the first request received from the 5GMSu application provider, transmitting, to a 5GMSu application server (AS), a second request to allocate content resources for egest based on the created CET, transmitting, to the 5GMSu application provider, an acknowledgement that the CET is created.

A Breakout Gateway Control Function (BGCF) determines a geographic location information (e.g., a major trading area (MTA) information) from a SIP INVITE header information (e.g., from a P-Access-Network-Info (PANI) header information) and modifies the SIP URI in the SIP INVITE request by adding, deleting, or modifying values (e.g., prepending a number prefix to the URI) to generate a SIP URI that is based on the geographic location information.

Disclosed are various examples for segregating virtual private network (VPN) traffic based on the originating client application. A network gateway receives network traffic from a tunnel endpoint of an application-specific virtual private network tunnel. The network traffic originates from a client application executed in a client device. The network gateway identifies a particular virtual local area network through which the network traffic is received. The network gateway determines, using an identifier of the particular virtual local area network and a mapping of virtual local area network identifiers, characteristics of the client application or the client device from a set of mobile device management attributes. The network gateway determines whether to route the network traffic to a destination based at least in part on the characteristics.