Protection switching method and system

We claim: 1. A protection switching method for an infrastructure segment of a Traffic Engineered Service Instance (TESI) having one or more communication failures in a Provider Backbone Bridged Network (PBBN), wherein the one or more communication failures occurred on at least two tandem work infrastructure segments, the method comprising: identifying a network topology including at least one protection infrastructure segment for each tandem work infrastructure segment, such that the tandem work infrastructure segment and the corresponding protection infrastructure segment terminate on a same node, called a segment end node, wherein two protection infrastructure segments pass through at least one bridge node, called a co-joint node; monitoring for the one or more communication failures in the tandem work infrastructure segment and the protection infrastructure segment in the network topology; defining a Segment Protection Group (SPG) for each tandem work infrastructure segment including the tandem work infrastructure segment rooted at the co-joint node, wherein the SPG is formed by a set of tandem work infrastructure segments and protection infrastructure segments; switching the TESI over a high priority protection infrastructure segment; and provisioning two SPGs of the co-joint node to prevent the protection infrastructure segment from forwarding ambiguity and retracing of the TESI. 2. The method of claim 1 , wherein the step of identifying further including: identifying the first SPG of the co-joint node comprising the at least one protection infrastructure segment and the tandem work infrastructure segment, such that the tandem work infrastructure segment and the protection infrastructure segment initiate from the co-joint node and terminates on the segment end node towards the destination node. 3. The method of claim 1 , wherein the step of identifying further includes: identifying the second SPG of the co-joint node comprising the at least one protection infrastructure segment and the tandem work infrastructure segment, such that the tandem work infrastructure segment and the protection infrastructure segment initiate from the co-joint node and terminates on the segment end node towards the source node. 4. The method of claim 1 , further comprising: pre-provisioning the TESI forwarding entities in intermediate bridges forming part of the protection infrastructure segment. 5. The method of claim 1 , further comprising: reversioning of the TESI onto the tandem work infrastructure segment upon recovery from the one or more communication failures. 6. The method of claim 1 , wherein the step of monitoring further comprising: instantiating a Maintenance End Point (MEP) on Segment End-Point Ports (SEP) of the infrastructure segment and Maintenance Intermediate Point (MIP) on Segment Intermediate Ports (SIP). 7. The method of claim 6 , further comprising: checking for segment-continuity check message on the SEP of the tandem work infrastructure segment and protection infrastructure segment. 8. The method of claim 7 , further comprising: Indicating an occurrence of fault in the infrastructure segment when the segment continuity check message is not received within a predetermined time period. 9. A protection switching system for an infrastructure segment of a Traffic Engineered Service Instance (TESI) having one or more communication failures in a Provider Backbone Bridged Network (PBBN), wherein the one or more communication failures occurred on at least two tandem work infrastructure segments, the system comprising: a plurality of nodes interconnected defining a topology, wherein the topology includes at least one protection infrastructure segment for each tandem work infrastructure segment, such that the tandem work infrastructure segment and the corresponding protection infrastructure segment terminate on a same node, called a segment end node, wherein the two protection infrastructure segments pass through at least one bridge node called a co-joint node; and a network channel connected to each of the nodes for transmitting and receiving Continuity Check Message (CCMs), wherein each node is configured for defining a Segment Protection Group (SPG) for each work infrastructure segment, the tandem work infrastructure segment including the tandem work infrastructure segment rooted at the co-joint node, wherein the SPG is formed by a set of tandem work infrastructure segments and the protection infrastructure segments, and monitoring any communication failures in the work and protection infrastructure segments in the network topology and switching TESI over a high priority protection infrastructure segment and provisioning SPGs of the co-joint node to prevent the protection infrastructure segment from forwarding ambiguity and retracing of the TESI. 10. The system of claim 9 , wherein the plurality of nodes further comprise: a processor for pre-provisioning TESI forwarding entities in intermediate bridges forming the protection infrastructure segment. 11. The system of claim 9 , wherein the plurality of nodes further comprise: circuitry for reversioning of TESI onto the tandem work infrastructure segment upon recovery from the one or more communication failures. 12. The system of claim 9 , wherein the plurality of nodes are further configured for instantiating a Maintenance End Point (MEP) on Segment End-Point Ports (SEP) of the infrastructure segment, and a Maintenance Intermediate Point (MIP) on Segment Intermediate Ports (SIP), wherein each node of the plurality of nodes is capable of checking for segment continuity check messages on the SEP of the tandem work infrastructure segment and the protection infrastructure segment.