Abstract: A remote switch for connecting to and providing access to a TDM network. A switch resident of a non-TDM network implements control of various components in order to effectuate telecommunications in the non-TDM network. An access gateway at a remote location connects to the TDM network. The switch accesses the TDM network through the access gateway via the connection.

Abstract: A software-based telecommunications switch architecture with distributed supervision, network communications, and signal processing provides an expandable call volume handling capacity without having to add additional supervisory processing capability. The call signals are processed by a plurality of media control platforms which communicate with a supervisory network services processor and communicate with the network through a packet manager. The switch can be expanded by adding more media control platforms without the need to provide a new or additional network services processor or packet manager.

Abstract: A call processing system includes an access gateway that has a local switching unit. The access gateway, in operation, provides access to voice signals and data signals. The call processing system also includes a call feature server that has a host interface platform configured to connect to the access gateway through a network. The call feature server, in operation, provides call control functionality to the local switching unit. The call feature server is configured to provide bearer control signals through a packet network to establish a bearer channel.

Abstract: A telecommunications system and method is provided, having a network services processor (NSP) for handling telecommunications in conformance with a predefined signaling system and for distributing processing tasks including call handling and routing to a plurality of resources, comprising: a plurality of packet managers (PMs) for accessing, processing, and distributing packetized call data over a packet network; a plurality of media control platforms (MCPs) for accessing, processing, and distributing application tasks (MCTs) transmitted from the NSP; and a plurality of interconnect controllers (ICCs), each for interfacing the NSP with the plurality of resources including the PMs and the MCPs, wherein the processing tasks are handled by the plurality of resources by concurrent and decentralized processing, and the ICC includes a centralized maintenance platform (CMP) for monitoring the plurality of resources via centralized messaging and for determining resource failures by processing responses to the centrali

Abstract: A method for message handling in a telecommunications system having a network services processor (NSP) for accessing, processing, and distributing telecommunications in conformance with a predefined signaling system and for distributing processing applications including call handling and routing to a plurality of platforms, each platform having a unique address and responds to application specific messages, the method comprising: connecting the plurality of platforms to local area networks (LANs), the plurality of platforms include packet managers (PMs) for accessing, processing, and distributing packetized call data over a packet network and a plurality of media control platforms (MCPs) for accessing, processing, and distributing media tasks (MCTs); connecting the LANs to a corresponding plurality of interconnect controllers (ICCs), each ICC for interfacing the NSP with the plurality of platforms through a corresponding LAN; and distributing application specific messages to the plurality of platforms via a m

Abstract: A remote switch for connecting to and providing access to a TDM network. A switch resident of a non-TDM network implements control of various components in order to effectuate telecommunications in the non-TDM network. An access gateway at a remote location connects to the TDM network. The switch accesses the TDM network through the access gateway via the connection.

Abstract: A software adaptation of a Time Division Multiplexing (TDM) telecommunications line and trunk group control sub-system is described. The adaptation permits this legacy software to run under various operating systems and provide essential functions to a packet based switching system. This method of reuse permits continual use of proven and dependable software features to operate under new packet based topologies. The legacy software runs in a new soft-switch environment with minimal redesign. Timer and interrupt functions are altered to comply with off-the-shelf operating systems. Error recovery and restart operations are isolated to remove awareness from the operating system but still permit the legacy software to recover in conventional manner.

Abstract: A call processing system includes an access gateway that has a local switching unit. The access gateway, in operation, provides access to voice signals and data signals. The call processing system also includes a call feature server that has a host interface platform configured to connect to the access gateway through a network. The call feature server, in operation, provides call control functionality to the local switching unit. The call feature server is configured to provide bearer control signals through a packet network to establish a bearer channel.

Abstract: A media access control (MAC) address is associated with a particular hardware location (e.g. slot) in the network rather than to the card itself. Thus, the card's MAC address assigned by the manufacturer is effectively ignored. When a card is first plugged into a slot, it is initialized with the MAC address of the slot. Thus, if a destination address in a received data frame matches the MAC address of the slot, the card will recognize the data frame. Likewise, when a Card transmits a data frame, the source address in the frame is changed to match the Slot MAC address prior to being sent over the network. This has the advantage that no update of additional databases/servers need be made upon hardware replacement. Further, it is very useful in identifying sources of messages or localizing faults in the communication network.

Abstract: A software-based telecommunications switch architecture with distributed supervision, network communications, and signal processing provides an expandable call volume handling capacity without having to add additional supervisory processing capability. The call signals are processed by a plurality of media control platforms which communicate with a supervisory network services processor and communicate with the network through a packet manager. The switch can be expanded by adding more media control platforms without the need to provide a new or additional network services processor or packet manager.

Abstract: A telecommunications system and method is provided, having a network services processor (NSP) for handling telecommunications in conformance with a predefined signaling system and for distributing processing tasks including call handling and routing to a plurality of resources, comprising: a plurality of packet managers (PMs) for accessing, processing, and distributing packetized call data over a packet network; a plurality of media control platforms (MCPs) for accessing, processing, and distributing application tasks (MCTs) transmitted from the NSP; and a plurality of interconnect controllers (ICCs), each for interfacing the NSP with the plurality of resources including the PMs and the MCPs, wherein the processing tasks are handled by the plurality of resources by concurrent and decentralized processing, and the ICC includes a centralized maintenance platform (CMP) for monitoring the plurality of resources via centralized messaging and for determining resource failures by processing responses to the centrali

Abstract: A method for message handling in a telecommunications system having a network services processor (NSP) for accessing, processing, and distributing telecommunications in conformance with a predefined signaling system and for distributing processing applications including call handling and routing to a plurality of platforms, each platform having a unique address and responds to application specific messages, the method comprising: connecting the plurality of platforms to local area networks (LANs), the plurality of platforms include packet managers (PMs) for accessing, processing, and distributing packetized call data over a packet network and a plurality of media control platforms (MCPs) for accessing, processing, and distributing media tasks (MCTs); connecting the LANs to a corresponding plurality of interconnect controllers (ICCs), each ICC for interfacing the NSP with the plurality of platforms through a corresponding LAN; and distributing application specific messages to the plurality of platforms via a m

Abstract: A software adaptation of a Time Division Multiplexing (TDM) telecommunications line and trunk group control sub-system is described. The adaptation permits this legacy software to run under various operating systems and provide essential functions to a packet based switching system. This method of reuse permits continual use of proven and dependable software features to operate under new packet based topologies. The legacy software runs in a new soft-switch environment with minimal redesign. Timer and interrupt functions are altered to comply with off-the-shelf operating systems. Error recovery and restart operations are isolated to remove awareness from the operating system but still permit the legacy software to recover in conventional manner.

Abstract: A method of call processing includes passing, over a local area network, control signals from a centralized controller to each of a plurality of decentralized processors. The method also includes having each of the plurality of decentralized processors, in response to the control signals, executing decentralized call control functions.