Minimizing Blocking Probability in Elastic Optical Networks by Varyingthe Bandwidth Granularity Based on Optical Path Fragmentation

L. Al-Tarawneh, S. Taebi
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引用次数: 12

Abstract

Elastic optical networks (EONs) based on orthogonal frequency-division multiplexing (OFDM) are considered a promising solution for the next optical network’s generation. It basically makes it possible to choose an adequate portion of the available spectrum to satisfy the requested capacity. In this paper, we consider the impact of spectrum fragmentation along the optical single/multipath routing transmission on the efficiency of the EONs. This involves reducing the fragmentation effects by dynamically updating and controlling the minimum bandwidth allocation granularity (g).We adopt linear and nonlinear dynamic mechanisms, which are denoted as LDAEi and NLDAEi, respectively, to choose proper band width granularities that are proportional to the optical link/path bandwidth fragmentation status. In order to avoid neither splitting the capacity request over many routing paths, which would increase the management complexity, nor encouraging single path transmission, the proposed schemes aim to choose a proper bandwidth allocation granularity (g) of a predefined set of suggested values. Simulation results show that varying the bandwidth granularity based on the optical path fragmentation status can offer improved performance over fixed granularity with respect to the bandwidth blocking probability, the number of path splitting, the throughput, and differential delay constraint issue in terms of: the network bandwidth utilization and multipath distribution.
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基于光路分片的带宽粒度变化最小化弹性光网络阻塞概率
基于正交频分复用(OFDM)的弹性光网络被认为是下一代光网络发展的一种很有前途的解决方案。它基本上使选择可用频谱的适当部分来满足所请求的容量成为可能。在本文中,我们考虑了沿光单/多径路由传输的频谱碎片对eon效率的影响。这涉及到通过动态更新和控制最小带宽分配粒度(g)来减少碎片效应,我们采用线性和非线性动态机制,分别表示为LDAEi和NLDAEi,以选择与光链路/路径带宽碎片状态成比例的适当带宽粒度。为了避免在多个路由路径上分割容量请求(这会增加管理的复杂性),也不鼓励单路径传输,所提出的方案旨在从预定义的建议值集中选择适当的带宽分配粒度(g)。仿真结果表明,根据光路分片状态改变带宽粒度比固定粒度在带宽阻塞概率、路径分裂次数、吞吐量以及网络带宽利用率和多径分布方面的差分延迟约束问题上具有更好的性能。
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