Method and system for sending E-LSP packets having QoS across a cell ATM based network
First Claim
1. A telecommunications system comprising:
- an MPLS (multi-protocol label switching) packet based network;
a packet ingress node for E-LSP (EXP inferred per hop behavior label switched path) packets having a QOS (quality of service) in communication with the packet based network;
an ATM (asynchronous transfer mode) ingress node for an ATM network, the ATM ingress node receiving each E-LSP packet from the packet ingress node through the packet based network, segmenting the packet into cells including inferring PHBs (per-hop-behavior) of the cells without any changes to the cells'"'"' header encoding and inferring scheduling/queuing of cells based on the E-LSP packet'"'"'s EXP (experimental) encoding, classifying the E-LSP packet based on its PSC (per-hop scheduling class) value, identifying the QOS associated with each cell, mapping the cells into the associated QOS, and forwarding the cells to a corresponding VC (virtual circuit);
an ATM network in communication with the ATM ingress node;
an ATM egress node which receives cells from the ATM ingress node, the ATM egress node in communication with the ATM network, the ATM egress node reassembles the cells from each VC back into a single E-LSP packet, and derives EXP bits for the single E-LSP packet from the received cells'"'"' VPI/VCI (virtual path/virtual circuit identifier) values and the cells'"'"' corresponding CLP (cell loss priority) bits, the ATM egress node in communication with the packet based network;
a plurality of VCs corresponding with QOS between the ATM ingress node and the ATM egress node through the ATM network, the ATM ingress node sending each cell to the ATM egress node along the VCs whose QOS corresponds to the QOS of each cell; and
a packet egress node for the packets in communication with the ATM egress node through the packet based network, which receives the packets from the ATM egress node.
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Accused Products
Abstract
A telecommunications system includes a packet based network. The system includes a packet ingress node for packets having a QOS in communication with the packet based network. The system includes an ATM ingress node for an ATM network. The ATM ingress node receiving the packets from the packet ingress node through the packet based network, segmenting the packets into cells and identifying the QOS associated with each cell. The system includes an ATM network in communication with the ATM ingress node. The system includes an ATM egress node which receives cells from the ATM ingress nodes. The ATM egress node in communication with the ATM network. The ATM egress node reassembles the cells back into the packets. The ATM egress node in communication with the packet based network. The system includes a plurality of VCs corresponding with QOS between the ATM ingress node and the ATM egress node through the ATM network. The ATM ingress node sending each cell to the ATM egress node along the VCs whose QOS corresponds to the QOS of each cell. The system includes a packet egress node for the packets in communication with the ATM egress node through the packet based network, which receives the packets from the ATM egress node. A method for sending packets.
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Citations
6 Claims
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1. A telecommunications system comprising:
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an MPLS (multi-protocol label switching) packet based network; a packet ingress node for E-LSP (EXP inferred per hop behavior label switched path) packets having a QOS (quality of service) in communication with the packet based network; an ATM (asynchronous transfer mode) ingress node for an ATM network, the ATM ingress node receiving each E-LSP packet from the packet ingress node through the packet based network, segmenting the packet into cells including inferring PHBs (per-hop-behavior) of the cells without any changes to the cells'"'"' header encoding and inferring scheduling/queuing of cells based on the E-LSP packet'"'"'s EXP (experimental) encoding, classifying the E-LSP packet based on its PSC (per-hop scheduling class) value, identifying the QOS associated with each cell, mapping the cells into the associated QOS, and forwarding the cells to a corresponding VC (virtual circuit); an ATM network in communication with the ATM ingress node; an ATM egress node which receives cells from the ATM ingress node, the ATM egress node in communication with the ATM network, the ATM egress node reassembles the cells from each VC back into a single E-LSP packet, and derives EXP bits for the single E-LSP packet from the received cells'"'"' VPI/VCI (virtual path/virtual circuit identifier) values and the cells'"'"' corresponding CLP (cell loss priority) bits, the ATM egress node in communication with the packet based network; a plurality of VCs corresponding with QOS between the ATM ingress node and the ATM egress node through the ATM network, the ATM ingress node sending each cell to the ATM egress node along the VCs whose QOS corresponds to the QOS of each cell; and a packet egress node for the packets in communication with the ATM egress node through the packet based network, which receives the packets from the ATM egress node. - View Dependent Claims (2, 3, 4, 5)
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6. A method for sending packets comprising the steps of:
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receiving an E-LSP (EXP inferred per hop behavior label switched path) packet having a QOS (quality of service) at an ATM ingress node from a packet ingress node through an MPLS (multi-protocol label switching) packet based network; segmenting the packet into cells and identifying a QOS associated with each cell at the ATM ingress node including inferring PHBs (per-hop-behavior) of the cells without any changes to the cells'"'"' header encoding and inferring scheduling/queuing of cells based on the E-LSP packet'"'"'s EXP (experimental) encoding, and forwarding the cells to a corresponding VC (virtual circuit); classifying the E-LSP packet based on its PSC (per-hop scheduling class) value, identifying the QOS associated with each cell, mapping the cells into the associated QOS; receiving the cells from the ATM (asynchronous transfer mode) ingress node at an ATM egress node through a plurality of VCs whose QOS corresponds with the QOS of the cells between the ATM ingress node and the ATM egress node of an ATM network; reassembling the cells from each VC back into a single E-LSP packet at an ATM egress node and deriving EXP bits for the single E-LSP packet from the received cells'"'"' VPI/VCI (virtual path/virtual circuit identifier) values and the cells'"'"' corresponding CLP (cell loss priority) bits; and receiving the packets from the ATM egress node at a packet egress node for the packets through the packet based network.
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Specification