Media Access with Spatial Reuse for Cooperative Spectrum Sensing

无线传感网络(英文) Pub Date : 2017-07-31 DOI:10.4236/WSN.2017.97012

Xiaofei Shao, H. Leib

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Abstract

The increasing interest for wireless communication services and scarcity of radio spectrum resources have created the need for a more flexible and efficient usage of the radio frequency bands. Cognitive Radio (CR) emerges as an important trend for a solution to this problem. Spectrum sensing is a crucial function in a CR system. Cooperative spectrum sensing can overcome fading and shadowing effects, and hence increase the reliability of primary user detection. In this paper we consider a system model of a dedicated detect-andforward wireless sensor network (DetF WSN) for cooperative spectrum sensing with k-out-of-n decision fusion in the presence of reporting channels errors. Using this model we consider the design of a spatial reuse media access control (MAC) protocol based on TDMA/OFDMA to resolve conflicts and conserve resources for intra-WSN communication. The influence of the MAC protocol on spectrum sensing performance of the WSN is a key consideration. Two design approaches, using greedy and adaptive simulated annealing (ASA) algorithms, are considered in detail. Performance results assuming a grid network in a Rician fading environment are presented for the two design approaches.

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基于空间复用的协同频谱传感媒体接入

对无线通信服务的日益增长的兴趣和无线电频谱资源的稀缺已经产生了对无线电频带的更灵活和有效使用的需求。认知无线电（CR）是解决这一问题的一个重要趋势。频谱传感是CR系统中的一项关键功能。协同频谱感知可以克服衰落和阴影效应，从而提高主用户检测的可靠性。在本文中，我们考虑了一个专用检测和前向无线传感器网络（DetF-WSN）的系统模型，用于在存在报告信道错误的情况下，通过n中k的决策融合进行协作频谱传感。使用该模型，我们考虑设计一种基于TDMA/OFDMA的空间复用媒体访问控制（MAC）协议，以解决冲突并节省WSN内通信的资源。MAC协议对无线传感器网络频谱感知性能的影响是一个关键考虑因素。详细考虑了贪婪算法和自适应模拟退火算法两种设计方法。给出了两种设计方法在Rician衰落环境中假设网格网络的性能结果。

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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无线传感网络(英文)

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