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Multi-cast waveband grooming algorithms in multi-domain optical networks

Multi-cast waveband grooming algorithms in multi-domain optical networks

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  • Author(s): J. Wu 1 ; L. Guo 1, 2 ; W. Hou 1
    • View affiliations
    • Affiliations: 1: College of Information Science and Engineering, Northeastern University, Shenyang, People's Republic of China
      2: State Key Laboratory of Information Photonics and Optical Communications, Beijing University of Posts and Telecommunications, Beijing, People's Republic of China
  • Source: Volume 6, Issue 4, 6 March 2012, p. 428 – 436
    DOI:  10.1049/iet-com.2011.0423 , Print ISSN 1751-8628, Online ISSN 1751-8636
© The Institution of Engineering and Technology
Published

With the increasing of number of multimedia network applications, multi-cast services are becoming more and more popular. At the same time, the waveband switching technique is proposed to save ports and to reduce the cost of optical cross-connect. However, the existing multi-cast waveband grooming algorithms are mostly limited to single-domain optical networks. The size of optical backbones keeps enlarging, and the backbones are actually divided into multiple independent domains to provide the needed scalability and confidentiality. To solve these problems, the authors propose three heuristic algorithms: per-domain multi-cast grooming (PDMG), virtual topology multi-cast grooming (VTMG) and hierarchical multi-domain multi-cast grooming (HMMG). The main difference between these algorithms is that the inter-domain routing is performed in a different manner; in other words, the routings in PDMG, VTMG and HMMG are computed based on the domain-by-domain fixed routing table, the high layer in the aggregative virtual topology of multi-domains and the hierarchical integrated multi-cast auxiliary graph, respectively. For the intra-domain routing, the three algorithms employ the same method based on an intra-domain multi-cast integrated auxiliary graph. Simulation results show that compared with PDMG and VTMG, HMMG has the best performance in terms of the number of ports saved and the blocking probability.

Inspec keywords: multicast communication; probability; telecommunication network routing; telecommunication services; optical fibre networks; multimedia communication

Other keywords: virtual topology multicast grooming; single-domain optical network; waveband switching; optical backbone; blocking probability; aggregative virtual topology; PDMG; multicast waveband grooming algorithm; hierarchical multidomain multicast grooming; HMMG; domain-by-domain fixed routing table; multidomain optical network; intradomain multicast integrated auxiliary graph; confidentiality; multicast service; optical cross-connect; hierarchical integrated multicast auxiliary graph; heuristic algorithm; interdomain routing; multimedia network application; VTMG; intradomain routing; perdomain multicast grooming

Subjects: Optical fibre networks; Communication network design, planning and routing; Multimedia communications; Other topics in statistics

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