Preventive start-time optimisation of open shortest path first link weights for hose model

Ravindra Sandaruwan Ranaweera; Islam Mohammad Kamrul; Eiji Oki

Preventive start-time optimisation of open shortest path first link weights for hose model

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Author(s): Ravindra Sandaruwan Ranaweera ¹ ; Islam Mohammad Kamrul ^{1, 2} ; Eiji Oki ¹
- Affiliations: 1: Department of Communication Engineering and Informatics, The University of Electro-Communications, Tokyo, Japan;
  2: Computer Science and Engineering Department, University of Asia Pacific, Dhaka, Bangladesh
Source: Volume 3, Issue 2, June 2014, p. 143 – 149
DOI: 10.1049/iet-net.2012.0226 , Print ISSN 2047-4954, Online ISSN 2047-4962

Received 20/12/2012, Accepted 21/08/2013, Revised 16/07/2013, Published 26/09/2013

Optimising link weights in an open shortest path first network is a challenging traffic engineering problem to reduce network congestion. Most of the previous studies have focused on the application of start-time optimisation (SO) and run-time optimisation on both pipe and hose models of link weight optimisation. In a more recent study, an efficient policy, preventive start-time optimisation (PSO), has been introduced for link weight optimisation. However, no studies have been reported on the application of PSO to the hose model where the exact traffic demand between each source and destination node pair does not need to be specified. A PSO policy for the hose model to optimise the link weights against link failures is proposed. The proposed scheme employs a heuristic algorithm to determine a suitable set of link weights to reduce worst-case congestion for any single link failure. It efficiently selects the worst-case performance traffic matrix and reduces the worst-case congestion ratio as compared with a brute-force scheme which is computationally expensive when searching the link weight space against all the possible traffic matrices and topologies created by single link failures. The numerical results show that the proposed scheme is more effective in the reduction of worst-case congestion ratio than the scheme utilising SO.

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Preventive start-time optimisation of open shortest path first link weights for hose model

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