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引用次数: 0
摘要
IP over WDM是下一代互联网(NGI)骨干网的一种很有前途的架构。下一代多媒体业务的流量工程(TE)对这些通信网络的多层协作提出了新的挑战。在基于WDM网络上的IP的MPLS/GMPLS中,TE过程是通过在底层光拓扑之上建立适当的逻辑拓扑来完成的。然而,在动态流量模式下,优化逻辑拓扑设计或在对其进行重新配置时将转换最小化,并不一定能实现高效的流量处理。逻辑拓扑的稳定性和重构要求网络资源的可用性。本文讨论了动态流量模式下可重构网络的资源节约型逻辑拓扑设计的混合整数线性规划(MILP)公式。为了证明我们的建议的有效性,详细的案例研究。
Resource saving logical topology design for reconfigurable Next Generation Internet backbones
IP over WDM is a promising architecture for the Next Generation Internet (NGI) backbones. Traffic Engineering (TE) for next generation multimedia services is a new challenge for multilayer co-operation within these communication networks. In MPLS/GMPLS based IP over WDM networks, the TE process is accomplished by the establishment of an adequate logical topology, above the underlying optical topology. However, under dynamic traffic pattern, optimal logical topology design or minimization of transitions when reconfiguring it, cannot always lead to efficient traffic handling. Logical topology stability and reconfiguration require resource availability in the network. We are addressing here a Mixed Integer Linear Programming (MILP) formulation for the resource saving logical topology design (RSLTD) for reconfigurable network under dynamic traffic pattern. A case study is detailed wishing to show the effectiveness of our proposal.
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