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

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

Method for operating a network node of a wireless digital data network based on broadcast layer-2 periodic frames, wherein said network is composed by a plurality of network nodes, wherein each network node is either a mobile node equipped with an on-board unit (OBU) node, or is a static node equipped with a road-side unit (RSU) node, said method comprising a current network node of the plurality of network nodes carrying out the following steps: periodically broadcasting a Network Status Information (NSI) frame which comprises: the node identifier and a type of node of the current network node; receiving broadcasted NSI frames from neighbouring network nodes of the plurality of network nodes reachable by the current network node through wireless communication; for any one received NSI frame, storing the received NSI frame in an entry in a NSI table (NSIT) if the received NSI frame was the first received NSI frame from a neighbouring network node, or otherwise, if the received NSI frame was not the first received NSI frame from the neighbouring network node, updating a previously stored NSIT entry with the received NSI frame; marking as expired or deleting any previously entered NSIT entry after a predetermined period of time has passed after receiving or updating said any previously entered NSIT entry. Also an electronic network node of a wireless digital data network, wherein said network node is programmed to carry out the method.

Method for operating a network node of a wireless digital data network based on broadcast layer-2 periodic frames, wherein said network is composed by a plurality of network nodes, wherein each network node is either a mobile node equipped with an on-board unit (OBU) node, or is a static node equipped with a road-side unit (RSU) node, said method comprising a current network node of the plurality of network nodes carrying out the following steps: periodically broadcasting a Network Status Information (NSI) frame which comprises: the node identifier and a type of node of the current network node; receiving broadcasted NSI frames from neighbouring network nodes of the plurality of network nodes reachable by the current network node through wireless communication; for any one received NSI frame, storing the received NSI frame in an entry in a NSI table (NSIT) if the received NSI frame was the first received NSI frame from a neighbouring network node, or otherwise, if the received NSI frame was not the first received NSI frame from the neighbouring network node, updating a previously stored NSIT entry with the received NSI frame; marking as expired or deleting any previously entered NSIT entry after a predetermined period of time has passed after receiving or updating said any previously entered NSIT entry. Also an electronic network node of a wireless digital data network, wherein said network node is programmed to carry out the method.

In one embodiment, a method comprises receiving, by a network device within a tree-based topology rooted by a root network device, a request message from a child network device for generating an optimized tree-based topology for a future use by the child network device at a future time instance; the network device executing an objective function for generating the optimized tree-based topology for the future use by the child network device; and the network device providing network communications, for the child network device, at the future time instance using the optimized tree-based topology.

A method of operating a network server, such as a mobile application gateway, connect devices on a cellular or carrier network with individual networks, such as enterprise voice and data networks or residential networks. The effects of the present invention are far reaching in terms of transferring effective call control from the cellular network into the control of the individual network, such as the enterprise, and enabling new business models for the purchase of cellular service from a public cellular carrier by an enterprise.

A method of operating a network server, such as a mobile application gateway, connect devices on a cellular or carrier network with individual networks, such as enterprise voice and data networks or residential networks. The effects of the present invention are far reaching in terms of transferring effective call control from the cellular network into the control of the individual network, such as the enterprise, and enabling new business models for the purchase of cellular service from a public cellular carrier by an enterprise.

A system and method for selecting at least one relay in a communication network; the network comprises a plurality of nodes; each of the nodes comprises at least one processing unit; each pair of the nodes is characterized by a first connection number; a first score is associated with each pair of (i) first first connection number; and (ii) second first connection number; each of the processing unit is programmed to execute the method.

A system and method for selecting at least one relay in a communication network; the network comprises a plurality of nodes; each of the nodes comprises at least one processing unit; each pair of the nodes is characterized by a first connection number; a first score is associated with each pair of (i) first first connection number; and (ii) second first connection number; each of the processing unit is programmed to execute the method.

Systems and methods are disclosed for an augmented Service Capability Exposure Function (A-SCEF). The A-SCEF may receive upstream or downstream traffic and direct or process that traffic in accordance with policy profiles. The policy profiles may be associated with various entities that may have interrelationships. The policy profiles may allow a network operator to better control multiple entities on the network while simplifying use of the network for the customers, such as those associated with a large number of internet of things (IOT) devices.