Availability analysis and optimization of HSR-based ethernet mesh networks

The IEC 62439-3 high-availability seamless redundancy (HSR) protocol can achieve maximal network availability by means of simultaneously transmitting duplicate frames over disjoint paths for a full utilization of inherent network redundancies. Deploying HSR in mesh networks, however, requires significant design practices to avoid an unnecessary network cost spending. This paper investigates the trade-off between the redundancy investment and the realization of the network availability demanded by the customer. In this regard, we propose an optimized design scheme for cost-effective resilient HSR mesh networks and develop an enumeration based algorithm exploiting the concept of meta-mesh graph reduction. The NP-hardness of the problem, however, limits the applicability of enumeration based approaches to only small size networks. Hence, a greedy-based heuristic algorithm is proposed to overcome the computation complexity. The simulation results show that our heuristic algorithm achieves a performance comparable to the optimal solutions.

[1]  P. Demeester,et al.  General availability model for multilayer transport networks , 2005, DRCN 2005). Proceedings.5th International Workshop on Design of Reliable Communication Networks, 2005..

[2]  R M Morais,et al.  Genetic Algorithm for the Topological Design of Survivable Optical Transport Networks , 2011, IEEE/OSA Journal of Optical Communications and Networking.

[3]  Martin L. Shooman,et al.  Reliability of computer systems and networks , 2001 .

[4]  Rajesh Mishra,et al.  A Cutsets-Based Unified Framework to Evaluate Network Reliability Measures , 2009, IEEE Transactions on Reliability.

[5]  Oliver Kleineberg,et al.  The High-Availability Seamless redundancy protocol (HSR): Robust fault-tolerant networking and loop prevention through duplicate discard , 2012, 2012 9th IEEE International Workshop on Factory Communication Systems.

[6]  Abdullah Konak,et al.  An Improved General Upper Bound for All-Terminal Network Reliability , 1998 .

[7]  Hans Weibel,et al.  Seamless and low-cost redundancy for substation automation systems (high availability seamless redundancy, HSR) , 2011, 2011 IEEE Power and Energy Society General Meeting.

[8]  David S. Johnson,et al.  Computers and Intractability: A Guide to the Theory of NP-Completeness , 1978 .

[9]  H. T. Mouftah,et al.  Availability and Cost-Constrained Long-Reach Passive Optical Network Planning , 2012, IEEE Transactions on Reliability.

[10]  Wayne D. Grover,et al.  Mesh-based Survivable Transport Networks: Options and Strategies for Optical, MPLS, SONET and ATM Networking , 2003 .

[11]  Massimo Tornatore,et al.  Availability design of optical transport networks , 2005, IEEE Journal on Selected Areas in Communications.

[12]  Hanan Luss,et al.  Topological network design for SONET ring architecture , 1998, IEEE Trans. Syst. Man Cybern. Part A.

[13]  J. Rupe Reliability of Computer Systems and Networks Fault Tolerance, Analysis, and Design , 2003 .

[14]  Weiwei Wu,et al.  Survivable Topology Design of Submarine Networks , 2013, Journal of Lightwave Technology.

[15]  K. Menger Zur allgemeinen Kurventheorie , 1927 .

[16]  Younghyun Kim,et al.  Reliable Network Design for Ethernet Ring Mesh Networks , 2013, Journal of Lightwave Technology.