Dual Protection Routing Trees on Graphs

Author:

Pai Kung-Jui1

Affiliation:

1. Department of Industrial Engineering and Management, Ming Chi University of Technology, New Taipei City 24301, Taiwan

Abstract

In IP networks, packet forwarding is destination-based and hop-by-hop, and routes are built as needed. Kwong et al. introduced a protection routing in which packet delivery to the destination node can proceed uninterrupted in the event of any single node or link failure. He then showed that “whether there is a protection routing to the destination” is NP-complete. Tapolcai found that two completely independent spanning trees, abbreviated as CISTs, can be used to configure the protection routing. In this paper, we proposed dual protection routing trees, denoted as dual-PRTs to replace CISTs, which are less restrictive than CISTs. Next, we proposed a transformation algorithm that uses dual-PRTs to configure the protection routing. Taking complete graphs Kn, complete bipartite graphs Km,n, hypercubes Qn, and locally twisted cubes LTQn as examples, we provided a recursive method to construct dual-PRTs on them. This article showed that there are no two CISTs on K3,3, Q3, and LTQ3, but there exist dual-PRTs that can be used to configure the protection routing. As shown in the performance evaluation of simulation results, for both Qn and LTQn, we get the average path length of protection routing configured by dual-PRTs is shorter than that by two CISTs.

Funder

Ministry of Science and Technology

Publisher

MDPI AG

Subject

General Mathematics,Engineering (miscellaneous),Computer Science (miscellaneous)

Reference18 articles.

1. On the feasibility and efficacy of protection routing in IP networks;Kwong;IEEE/ACM Trans. Netw.,2011

2. Completely independent spanning trees in the underlying graph of a line digraph;Hasunuma;Discrete Math.,2001

3. Sufficient conditions for protection routing in IP networks;Tapolcai;Optim. Lett.,2013

4. Completely independent spanning trees in maximal planar graphs;Goos;WG 2002. LNCS,2002

5. Completely independent spanning trees in torus networks;Hasunuma;Networks,2012

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