Using MPLS in a Wireless Mesh Network to Improve the Resiliency of SCADA Systems

Critical infrastructure are often and often being managed by SCADA systems that communicates using the de facto standard TCP/IP suite of protocols. Given the recent advances in wireless communications and the cost-effectiveness of deploying a multi-hop wireless network, we also foresee the use of wireless networks as the communication infrastructure of SCADA systems in the near future. In order for that to happen, the needed requirements of SCADA systems in terms of performance, reliability and resiliency must be ensured. To this end, a critical role is played by the routing protocol. In a previous work, we proposed a forwarding paradigm for wireless networks which was shown to be robust against node/link failures. However, such a forwarding paradigm cannot be used as-is in the case of SCADA systems due to its loose control over the network traffic. In this paper, we present an alternative implementation of such forwarding paradigm, which uses MPLS – a widely adopted technology in the wired world – as its forwarding engine and describe how such solution solves the issues presented by the original version of our forwarding paradigm.

[1]  Eric C. Rosen,et al.  Multiprotocol Label Switching Architecture , 2001, RFC.

[2]  Tzi-cker Chiueh,et al.  Centralized channel assignment and routing algorithms for multi-channel wireless mesh networks , 2004, MOCO.

[3]  Ian F. Akyildiz,et al.  Wireless mesh networks: a survey , 2005, Comput. Networks.

[4]  Cheng Li,et al.  Wireless Mesh Networks: A Survey , 2007 .

[5]  Stefano Avallone,et al.  A splitting infrastructure for load balancing and security in an MPLS network , 2007, 2007 3rd International Conference on Testbeds and Research Infrastructure for the Development of Networks and Communities.

[6]  Randeep Bhatia,et al.  Joint Channel Assignment and Routing for Throughput Optimization in Multiradio Wireless Mesh Networks , 2005, IEEE Journal on Selected Areas in Communications.

[7]  Vincent W. S. Wong,et al.  Joint logical topology design, interface assignment, channel allocation, and routing for multi-channel wireless mesh networks , 2007, IEEE Transactions on Wireless Communications.

[8]  Ying-Yu Chen,et al.  WLC30-2: Channel Assignment and Routing for Multi-Channel Wireless Mesh Networks Using Simulated Annealing , 2006, IEEE Globecom 2006.

[9]  Charles E. Perkins,et al.  Ad hoc On-Demand Distance Vector (AODV) Routing , 2001, RFC.

[10]  G. Ventre,et al.  A Channel and Rate Assignment Algorithm and a Layer-2.5 Forwarding Paradigm for Multi-Radio Wireless Mesh Networks , 2009, IEEE/ACM Transactions on Networking.

[11]  Murali S. Kodialam,et al.  Characterizing the capacity region in multi-radio multi-channel wireless mesh networks , 2005, MobiCom '05.