Semi-dynamic Routing and Spectrum Assignment with variable bandwidth in Elastic Optical Networks. Bee-inspired Algorithms approach

Christian D. Pérez-López, Luis M. Soto-Bovó, José Colbes, D. Pinto
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Abstract

Elastic Optical Networks (EON) are a considerably new technology and have a promising future due to their fast speed, flexibility, and spectrum efficiency. The main point to consider in EON networks is the routing and spectrum assignment (RSA), an NP-complete problem. This work focuses on cases where there is semi-dynamic traffic with variable bandwidth. Initially, we broadly study techniques already proposed to face this problem, focusing on the best use of the spectrum and thus avoid spectrum reassignment, which will be the main objective of this work. This work proposes two promissory algorithms based on Artificial Bee Colony (ABC) and Bee Colony Optimization (BCO) with the encoding of bee based on routing and permutation. For both encodings, we use Fixed Alternative Routing and Mid-Fit and First-Fit spectrum assignment. Various and extensive simulations were conducted with different traffic loads and network topologies considering blocking probability and entropy measures. The efficiency of the algorithms varies according to the topologies. In general terms, routing-based ABC had better results in larger topologies, while permutation-based BCO having outstanding results in smaller topologies. Still, it does not have good results in the same way for larger topologies.
弹性光网络中可变带宽的半动态路由与频谱分配。蜜蜂启发算法方法
弹性光网络(EON)是一项相当新的技术,由于其快速、灵活和频谱效率,具有广阔的前景。在EON网络中需要考虑的主要问题是路由和频谱分配(RSA),这是一个np完全问题。这项工作着重于具有可变带宽的半动态流量的情况。首先,我们广泛研究已经提出的技术来面对这个问题,重点是频谱的最佳利用,从而避免频谱重新分配,这将是本工作的主要目标。本文提出了基于人工蜂群(Artificial Bee Colony, ABC)和蜂群优化(Bee Colony Optimization, BCO)两种基于路由和排列的蜜蜂编码约定算法。对于这两种编码,我们使用固定替代路由和中拟合和第一拟合频谱分配。考虑阻塞概率和熵度量,在不同的流量负载和网络拓扑下进行了各种广泛的仿真。算法的效率随拓扑结构的不同而不同。一般来说,基于路由的ABC在较大的拓扑中有更好的结果,而基于排列的BCO在较小的拓扑中有出色的结果。但是,对于更大的拓扑,它并没有同样好的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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