CONTENTS - ITU-T RECOMMENDATION

�2�� References
�3�� Terms and definitions
�4�� Abbreviations
�5�� Protection classifications
�6�� Applications considerations
�� 6.1�� MS shared protection rings
�� 6.2�� MS shared protection rings (transoceanic application)
�� 6.3�� MS dedicated protection rings
�� 6.4�� Unidirectional and bidirectional protection switching
�� 6.5�� Linear VC trail protection
�� 6.6�� Subnetwork connection protection
�� 6.7�� Linear multiplex section protection switching
�7�� SDH trail protection
�� 7.1�� Linear multiplex section protection
�� 7.1.1�� MSP protocol
�� 7.1.2�� MSP commands
�� 7.1.3�� MSP conditions
�� 7.1.4�� Switch operation
�� 7.2�� MS shared protection rings
�� 7.2.1�� Two- and four-fibre MS shared protection rings
�� 7.2.2�� Network objectives
�� 7.2.3�� Application architecture
�� 7.2.4�� Switch initiation criteria
�� 7.2.5�� Protection switch protocol
�� 7.2.6�� Protection algorithm operation
�� 7.2.7�� Examples
�� 7.3�� MS dedicated protection rings
�� 7.4�� Linear VC trail protection
�� 7.4.1�� Network architecture
�� 7.4.2�� Network objectives
�� 7.4.3�� Application architecture
�� 7.4.4�� Switch initiation criteria
�� 7.4.5�� Protection switching protocol
�� 7.4.6�� Protection algorithm operation
�8�� SDH subnetwork connection protection
�� 8.1�� Network architecture
�� 8.2�� Network objectives
�� 8.3�� Application architecture
�� 8.3.1�� Routing
�� 8.3.2�� 1 + 1 unidirectional protection switching
�� 8.3.3�� Other architectures
�� 8.4�� Switch initiation criteria
�� 8.4.1�� 1 + 1 unidirectional protection switching
�� 8.4.2�� Other architectures
�� 8.5�� Protection switching protocol
�� 8.5.1�� 1 + 1 unidirectional protection switching
�� 8.5.2�� Other architectures
�� 8.6�� Protection algorithm operation
�� 8.6.1�� 1 + 1 unidirectional protection switching algorithm
�� 8.6.2�� Other architectures
Annex A � MS shared protection rings (transoceanic application)
�� A.1�� Application
�� A.2�� Network objectives
�� A.3�� Application architecture
�� A.4�� Switching criteria
�� A.5�� Protection switch protocol
�� A.6�� Protection algorithm operation
Annex B � Multiplex section protection (MSP) 1 + 1 optimized protocol, commands and operation
�� B.1�� 1 + 1 bidirectional switching optimized for a network using predominantly 1 + 1 bidirectional switching
�� B.1.1�� Lockout
�� B.1.2�� Secondary section failure
�� B.1.3�� K1/K2 byte coding
�� B.1.4�� K2 byte coding
�� B.1.5�� Primary section mismatch
�� B.2�� Switch commands
�� B.3�� Switch operation
Appendix I � Examples of protection switching in an MS shared protection ring
�� I.1�� Unidirectional signal fail (span) in a four-fibre ring
�� I.2�� Unidirectional signal fail (ring)
�� I.3�� Bidirectional signal fail (ring)
�� I.4�� Unidirectional signal degrade (ring)
�� I.5�� Node failure
�� I.6�� Unidirectional SF-R pre-empting a unidirectional SD-S on non-adjacent spans
�� I.7�� Unidirectional SF-S pre-empting a unidirectional SF-R on adjacent spans � SF-S and SF-R detected at non-adjacent nodes
�� I.8�� Unidirectional SF-R pre-empting a unidirectional SD-S on adjacent spans
�� I.9�� Unidirectional SF-R coexisting with a unidirectional SF-R on non-adjacent spans
�� I.10�� Node failure on a ring with extra traffic capability (see Figure I.11)
�� I.11�� Unidirectional SF-S pre-empting a unidirectional SF-R on adjacent spans � SF-S and SF-R detected at adjacent nodes
Appendix II � Generalized squelching logic
�� II.1�� Squelching for unidirectional (and bidirectional) circuits
�� II.2�� Squelching of multiply dropped and multiply sourced unidirectional circuits
�� II.2.1�� Multiply dropped unidirectional circuits
�� II.2.2�� Multiply sourced unidirectional circuits
�� II.2.3�� Application to ring interworking