Wideband spectrum sensing framework for multiple slow frequency hopping primary users

2012 IEEE Wireless Communications and Networking Conference (WCNC) Pub Date : 2012-04-01 DOI:10.1109/WCNC.2012.6214249

Abubakar U. Makarfi, K. Hamdi

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引用次数: 2

Abstract

Cognitive radios have been advanced as a solution to improve spectral efficiency through opportunistic access of the spectrum by unlicensed users. In order to achieve its objective, a cognitive radio is required to conduct periodic spectrum sensing to avoid interfering with the licensed user of the spectrum. In this paper, we examine a multi-channel occupied by a licensed user (primary user) employing slow frequency hopping to access the channel. This method of access presents a challenge to a sensing cognitive radio node since the primary user effectively spreads its signal over the entire wideband and the spectrum holes are rapidly changing. By adopting a sensing strategy of jointly detecting all subbands in the channel simultaneously, we study the achievable unlicensed user (secondary user) throughput vis-a-vis the allowable interference on the primary network. The investigation is conducted under two cases; when the hop duration of the primary user is either synchronized or unsynchronized to the secondary user's time frame to investigate the effect of time frame misalignment which presents a more realistic model.

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多慢跳频主用户宽带频谱感知框架

认知无线电作为一种解决方案已经被提出，通过无证用户对频谱的机会性访问来提高频谱效率。为了实现其目标，认知无线电需要进行周期性频谱感知，以避免干扰频谱的持牌用户。在本文中，我们研究了一个由许可用户(主用户)使用慢跳频访问信道所占用的多信道。这种接入方法对感知认知无线电节点提出了挑战，因为主用户有效地在整个宽带上传播其信号，并且频谱孔快速变化。通过采用联合检测信道中所有子带的感知策略，研究了在主网络允许的干扰下，可实现的非授权用户(辅助用户)吞吐量。调查分两种情况进行;当主用户的跳时长与从用户的时间帧同步或不同步时，研究时间帧不同步的影响，提出了一个更现实的模型。

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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2012 IEEE Wireless Communications and Networking Conference (WCNC)

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