Abstract
This paper presents a new traffic engineering technique for dynamic constrained multicast routing, where routing request of traffic arrives one-by-one. The objective we adopted in this paper is to minimize the maximum of link utilization. Although this traffic engineering is useful to relax the most heavily congested link in Internet backbone, the total network resources, i.e. sum of link bandwidth consumed, could be used when the acquired path is larger (in terms of number of hops) than the conventional shortest path. Accordingly we find a multicast tree for routing request that satisfies the hop-count constraint. We formulate this problem as mixed-integer programming problem and propose a new heuristic algorithm to find a multicast tree for multicast routing request. The presented heuristic algorithm uses link-state information, i.e. link utilization, for multicast tree selection and is amenable to distributed implementation. The extensive simulation results show that the proposed traffic engineering technique and heurisitc algorithm efficiently minimize the maximum of link utilization better than the shortest path.
This work was supported in part by the Brain Korea 21 project of Ministry of Education, in part by the National Research Laboratory project of Ministry of Science and Technology, and in part by Electronic Telecommunication Research Institute, 2001, Korea.
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Seok, Y., Lee, Y., Choi, Y., Kim, C. (2002). Dynamic Constrained Traffic Engineering for Multicast Routing. In: Chong, I. (eds) Information Networking: Wired Communications and Management. ICOIN 2002. Lecture Notes in Computer Science, vol 2343. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45803-4_26
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DOI: https://doi.org/10.1007/3-540-45803-4_26
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