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An efficient algorithm for bandwidth-delay constrained least cost multicast routing
Forsati, R ; Sharif University of Technology | 2008
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- Type of Document: Article
- DOI: 10.1109/CCECE.2008.4564820
- Publisher: 2008
- Abstract:
- The advent of various real-time multimedia applications in high-speed networks creates a need for quality of service (QoS) based multicast routing. Two important QoS constraints are the bandwidth constraint and the end-to-end delay constraint. The QoS based multicast routing problem is a known NP-complete problem that depends on (1) bounded end-to-end delay and link bandwidth along the paths from the source to each destination, and (2) minimum cost of the multicast tree. In this paper we describe a new representation, called node parent index (NPI) representation, for representing trees and describe harmony operations accord to this representation. The presented algorithm is based on the harmony search (HS) algorithm and finds near-optimal solutions in polynomial time. We evaluate the performance and efficiency of the proposed method with a modified version of the bounded shortest multicast algorithm (BSMA) which is the best known deterministic heuristic algorithm to delay-constrained multicast problem. Simulation results reveal that the proposed algorithm can achieve a smaller average tree costs than modified BSMA with a much smaller running time for relatively large networks. © 2008 IEEE
- Keywords:
- Algorithms ; Bandwidth ; Computer networks ; Heuristic algorithms ; Heuristic methods ; Heuristic programming ; Multicasting ; Network routing ; Nuclear propulsion ; Packet networks ; Polynomial approximation ; Routing algorithms ; Technology ; Telecommunication systems ; Trees (mathematics) ; Bandwidth constraint ; Bandwidth-delay ; Efficient algorithms ; Electrical and computer engineering ; End-to-end delay ; Harmony search ; High-speed networks ; Large networks ; Link bandwidths ; Minimum costs ; Multicast ; Multicast algorithms ; Multicast routing ; Multicast trees ; Near-optimal solutions ; NP-complete problems ; Polynomial-time ; QoS constraints ; QoS routing ; Real-time multimedia ; Running time ; Simulation results ; Quality of service
- Source: 2008 IEEE Canadian Conference on Electrical and Computer Engineering, CCECE 2008, Niagara Falls, ON, 4 May 2008 through 7 May 2008 ; 2008 , Pages 1641-1645 ; 08407789 (ISSN) ; 9781424416431 (ISBN)
- URL: https://ieeexplore.ieee.org/document/4564820