最小化SONET系统上虚拟连接以太网的差分延迟

Proceedings. 13th International Conference on Computer Communications and Networks (IEEE Cat. No.04EX969) Pub Date : 2004-10-11 DOI:10.1109/ICCCN.2004.1401628

S. Ahuja, T. Korkmaz, M. Krunz

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引用次数: 40

摘要

我们考虑通过适当的路径选择来最小化虚拟连接的SONET (EoS)系统中的差分延迟问题。链路容量调整方案LCAS (link capacity adjustment scheme)是指网络服务提供商在VCG (virtual concatated group)中动态添加或删除STS-n信道的方案。如果新的STS-n通道与VCG中现有的STS-n通道之间的差分延迟在一定范围内，该范围反映了EoS系统支持的可用内存缓冲区，则可以在VCG中添加新的STS-n通道。我们将寻找这样一个STS-n通道的问题建模为一个受限路径选择问题，其中所需(可行)路径的成本不仅受上界约束，而且受下界约束。我们提出了两种算法来寻找这样的路径。算法1使用著名的k-最短路径算法。算法II基于修改后的链路度量，该度量将原始链路权重(链路延迟)和该权重的倒数线性结合。研究了这种度量的理论性质，并利用它开发了一种高效的路径选择启发式算法。通过仿真来评估两种算法在缺失率和执行时间(平均计算复杂度)方面的性能。

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Minimizing the differential delay for virtually concatenated Ethernet over SONET systems

We consider the problem of minimizing the differential delay in a virtually concatenated Ethernet over SONET (EoS) system by suitable path selection. The link capacity adjustment scheme (LCAS) enables network service providers to dynamically add STS-n channels to or drop them from a virtually concatenated group (VCG). A new STS-n channel can be added to the VCG provided that the differential delay between the new STS-n channel and the existing STS-n channels in the VCG is within a certain bound that reflects the available memory buffer supported by the EoS system. We model the problem of finding such a STS-n channel as a constrained path selection problem where the cost of the required (feasible) path is constrained not only by an upper bound but also by a lower bound. We propose two algorithms to find such a path. Algorithm I uses the well-known k-shortest-path algorithm. Algorithm II is based on a modified link metric that linearly combines the original link weight (the link delay) and the inverse of that weight. The theoretical properties of such a metric are studied and used to develop a highly efficient heuristic for path selection. Simulations are conducted to evaluate the performance of both algorithms in terms of the miss rate and the execution time (average computational complexity)

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Proceedings. 13th International Conference on Computer Communications and Networks (IEEE Cat. No.04EX969)

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