Orthognal Zones for Interference Migration in 2.4 GHz Mesh Backhaul

Sukkur IBA Journal of Computing and Mathematical Sciences Pub Date : 2022-01-01 DOI:10.30537/sjcms.v5i2.817

S. Abbasi, K. Khoumbati, Muhammad Memon, S. Memon

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Abstract

Managing interference in the multi-radio networks is critical challenge; problem becomes even more serious in 2.4 GHz band due to minimal availability of orthogonal channels. This work attempts to propose a channel assignment scheme for interference zones of 2.4 GHz backhaul of Wireless Mesh Networks (WMN). The static nodes of Infrastructure based Backhaul employing directional antennas to connect static nodes, orthogonal channel zones introducing Interference are formatted with the selection of single tire direct hop and two tier directional hopes. The effort maintain the orthogonality of channels on system thus reduce the co-channel interference between inter flow and intra flow links. Group of non-overlapping channels of selected band are obtained by a mathematical procedure, interference is modeled by directed graph and Channel assignment is carried out with the help of greedy algorithms. Experimental analysis of the technical proposal is done by simulation through OPNET 14. Our framework can act as an imperative way to enhance the network performance resulting a leading improvement in system throughput and reduction in system delay

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2.4 GHz网状回程中干扰偏移的正交区域

管理多无线电网络中的干扰是一项关键挑战；由于正交信道的最小可用性，问题在2.4GHz频带中变得更加严重。本工作试图提出一种用于无线网状网络（WMN）2.4GHz回程干扰区的信道分配方案。采用定向天线连接静态节点的基于基础设施的回程的静态节点、引入干扰的正交信道区域通过选择单轮胎直接跳和两层定向希望来格式化。这种努力保持了系统上信道的正交性，从而减少了流间链路和流内链路之间的同信道干扰。通过数学程序获得所选波段的非重叠信道组，用有向图对干扰进行建模，并借助贪婪算法进行信道分配。通过OPNET14对该技术方案进行仿真实验分析。我们的框架可以作为增强网络性能的必要方法，从而显著提高系统吞吐量和减少系统延迟

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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Sukkur IBA Journal of Computing and Mathematical Sciences

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