Title :
Best practices of transporting PTPv2 over RSTP networks
Author :
Harada, Richard ; Abdul, Amin ; Wang, Peter
Author_Institution :
Eng. Group, RuggedCom, Concord, ON, Canada
Abstract :
Concerns are raised about the performance of a timing plane in the presence of network redundancy protocols which rely on network fault detection and recovery principle such as RSTP [1]. Since most of the present power substations networks are relying on STP like protocols, coexistence of a timing plane over these networks is imperative. This paper proposed basic principles to transport PTP [2] timing plane reliability over RSTP based networks and evaluate the performance of a timing plane in light of these principles using ring and mesh topologies. Test results show that deterministic timing plane transportation over RSTP networks is possible under most network faults with the exception being the failure of the root bridge in mesh topology.
Keywords :
fault diagnosis; performance evaluation; power engineering computing; power system reliability; protocols; smart power grids; substations; PTP timing plane reliability; PTPv2; RSTP based networks; RSTP networks; STP like protocols; deterministic timing plane transportation; mesh topology; network fault detection; network faults; network redundancy protocols; performance evaluation; power substations networks; principles to transport timing plane reliability; recovery principle; ring topology; root bridge; Accuracy; Bridges; Network topology; Protocols; Redundancy; Timing; Topology; BMC; IEC61850; PTP; Power profile; RSTP; Smart Grid;
Conference_Titel :
Precision Clock Synchronization for Measurement Control and Communication (ISPCS), 2012 International IEEE Symposium on
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4577-1714-7
DOI :
10.1109/ISPCS.2012.6336619
