SVC signaling system and method
First Claim
1. A network node apparatus for use in an asynchronous transfer mode (ATM)-based telecommunications network which includes a plurality of network nodes, comprising:
- a plurality of first ports that is associated with a first virtual connection;
at least one of an Asynchronous Transfer Mode (ATM) switch and ATM router co-located with said pluraity of first ports and comprising at least one second port that is associated with a second virtual connection; and
signaling logic that is capable of interfacing with another network node in the telecommunications network for remotely communicating routing information for a given call session;
wherein the plurality of first ports includes a first set of first ports and a second set of first ports, in which the first set of first ports supports a first modulation scheme and the second set of first ports supports a second modulation scheme.
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Abstract
The Intelligent Multiservice Access System (IMAS) enables support for the next generation of virtual connections. Regardless of whether the communications lines coupled to the inputs and outputs of the IMAS are based on SVC, PVC, or a combination of PVC and SVC, the IMAS can support SVCs for a more flexible, timely, efficient, and manageable connection. In the more typical configuration, the loop side of the IMAS is PVC-based because the modems do not support SVC signaling, and the telecommunications backbone side is capable of supporting SVC signaling even though existing DSLAMs do not employ SVC signaling logic. With SVC support, the IMAS assists the ATM network in hand crafting an SVC-based connection almost immediately between end users when the originating end user wants to make a call to a destination end user, and tear down that virtual connection almost immediately when that call has completed. The SVC signaling is performed by a proxy signaling agent that resides in the IMAS to give the appearance to the ATM network in the telecommunications backbone that the loop side supports SVC signaling even though the line is PVC-based.
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Citations
3 Claims
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1. A network node apparatus for use in an asynchronous transfer mode (ATM)-based telecommunications network which includes a plurality of network nodes, comprising:
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a plurality of first ports that is associated with a first virtual connection;
at least one of an Asynchronous Transfer Mode (ATM) switch and ATM router co-located with said pluraity of first ports and comprising at least one second port that is associated with a second virtual connection; and
signaling logic that is capable of interfacing with another network node in the telecommunications network for remotely communicating routing information for a given call session;
wherein the plurality of first ports includes a first set of first ports and a second set of first ports, in which the first set of first ports supports a first modulation scheme and the second set of first ports supports a second modulation scheme. - View Dependent Claims (2)
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3. An Intelligcnt Multiservice Access System (IMAS), for use in an asynchronous transfer mode (ATM)-based telecommunications network which includes a plurality of network nodes, comprising:
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a cliassis;
a Digital Subscriber Line Access Multiplexer (DSLAM) housed in said chassis, said DSLAM comprising a plurality of first ports associated with a first virtual connection, a first group of said first ports being configured to communicate using a first modulation scheme, and a second group of said first ports being configured to communicate using a second modulation scheme; and
at least one of an Asynchronous Transfer Mode (ATM) switch and an ATM router housed in said chassis, and comprising at least one second port that is associated with a second virtual connection;
wherein the first modulation scheme includes Discrete Multi-Tone modulation (DMT) and the second modulation scheme includes Carrier Amplitude Phase modulation (CAP).
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Specification