Simulation and Improved Channel Assignment by Simulated Annealing of a Wireless Mesh Network using Dynamic Spectrum Access

Proceedings of the 19th ACM International Symposium on Mobility Management and Wireless Access Pub Date : 2021-11-22 DOI:10.1145/3479241.3486696

Natasha Zlobinsky, D. Johnson, A. Mishra, A. Lysko

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引用次数: 1

Abstract

This work tackles a new angle to the Channel Assignment (CA) problem, which has otherwise been fairly widely studied for allocating channels optimally to access points and ad-hoc network nodes. Wireless Mesh Networks (WMNs) using Dynamic Spectrum Access (DSA), such as Television White Spaces (TVWS), create new avenues for research due to the additional constraints and complexity. For the production of controlled and repeatable experiments and design of CA algorithms without the drawbacks and difficulties of real hardware, we use Network Simulator 3 (ns3). In this paper we address the construction of an experimental setup in ns3 for evaluating CA algorithms in a DSA WMN environment. Additionally, we propose a solution to the CA problem in this scenario using Simulated Annealing. We simulate TVWS device operation by adding TVWS channels (this can be extended to include any new DSA bands), provide a framework for multi-radio multi-channel WMN experiments, and present and analyse the performance of a CA algorithm. Results show that the proposed algorithm provides channel assignments with much improved performance (120%-755% better) over random channel assignments.

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基于动态频谱接入的无线网状网络的模拟退火仿真及改进信道分配

这项工作解决了信道分配(CA)问题的一个新角度，该问题已被相当广泛地研究用于向接入点和自组织网络节点最佳分配信道。使用动态频谱接入(DSA)的无线网状网络(WMNs)，如电视空白(TVWS)，由于额外的限制和复杂性，为研究创造了新的途径。为了进行可控和可重复的实验和设计CA算法，而没有真实硬件的缺点和困难，我们使用Network Simulator 3 (ns3)。在本文中，我们在ns3中构建了一个实验装置，用于在DSA WMN环境中评估CA算法。此外，我们提出了一个解决方案，以CA问题在这种情况下使用模拟退火。我们通过增加TVWS信道(这可以扩展到包括任何新的DSA频段)来模拟TVWS设备的运行，为多无线电多信道WMN实验提供了一个框架，并提出并分析了CA算法的性能。结果表明，该算法提供的信道分配性能比随机信道分配提高了120% ~ 755%。

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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Proceedings of the 19th ACM International Symposium on Mobility Management and Wireless Access

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