Optimal sensing duration and threshold selection approach in cognitive radio networks with cooperative spectrum sensing

IF 1.7 4区计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

International Journal of Communication Systems Pub Date : 2024-08-13 DOI:10.1002/dac.5959

Malvika Vinod, Ila Sharma, Ghanshyam Singh

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引用次数: 0

Abstract

SummaryPerfect detection of unused/underutilized frequency band of the primary user (PU) in the cognitive radio communication systems is an essential component for its efficient utilization by the secondary/cognitive user (CU) without any interference. In the cooperative spectrum sensing scenario, the presence or absence of PU is determined by analyzing the decisions of each CU engaged in the collaboration. In this paper, we have emphasized on the significance of spectrum sensing duration in the optimal threshold selection approach in the cooperative spectrum sensing scenarios for a range of the received PU signal signal‐to‐noise ratio (SNR) from low to high values. The sensing duration parameter is taken as ts = 2.5 ms in the higher SNR environment, whereas in the lower SNR environment when the optimal threshold condition fails, ts is kept dynamic to satisfy minimum target values of sensing performance parameters. We have computed the spectrum sensing performance parameters and throughput using the same approach and compared the results with those obtained from the constant false‐alarm rate (CFAR), constant detection rate (CDR), and minimized error probability (MEP) threshold selection approaches. The spectrum sensing performance computed by the proposed approach is significantly improved as compared with the other reported approaches. At SNR = −24 dB, global probability of false alarm Qf = 0.002 and global probability of detection Qd = 0.999 are achieved. However, the throughput is relatively less for low SNR values.

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具有合作频谱感知功能的认知无线电网络中的最佳感知持续时间和阈值选择方法

摘要在认知无线电通信系统中，主用户（PU）未使用/未充分利用频段的完美检测是次用户/认知用户（CU）在不受任何干扰的情况下有效利用频段的重要组成部分。在合作频谱感知场景中，PU 的存在与否是通过分析参与合作的每个 CU 的决定来确定的。本文强调了在合作频谱感知场景中，在接收到的 PU 信号信噪比（SNR）从低到高的范围内，频谱感知持续时间在最佳阈值选择方法中的重要性。在信噪比较高的环境中，传感持续时间参数取为 ts = 2.5 ms，而在信噪比较低的环境中，当最优阈值条件失效时，ts 保持动态以满足传感性能参数的最小目标值。我们用同样的方法计算了频谱感知性能参数和吞吐量，并将结果与恒定误报率（CFAR）、恒定检测率（CDR）和最小错误概率（MEP）阈值选择方法得出的结果进行了比较。与其他报告的方法相比，拟议方法计算出的频谱感知性能有了显著提高。在 SNR = -24 dB 时，全局误报概率 Qf = 0.002，全局检测概率 Qd = 0.999。不过，在 SNR 值较低时，吞吐量相对较小。

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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来源期刊

International Journal of Communication Systems 工程技术-电信学

CiteScore

5.90

自引率

9.50%

发文量

323

审稿时长

7.9 months

期刊介绍： The International Journal of Communication Systems provides a forum for R&D, open to researchers from all types of institutions and organisations worldwide, aimed at the increasingly important area of communication technology. The Journal''s emphasis is particularly on the issues impacting behaviour at the system, service and management levels. Published twelve times a year, it provides coverage of advances that have a significant potential to impact the immense technical and commercial opportunities in the communications sector. The International Journal of Communication Systems strives to select a balance of contributions that promotes technical innovation allied to practical relevance across the range of system types and issues. The Journal addresses both public communication systems (Telecommunication, mobile, Internet, and Cable TV) and private systems (Intranets, enterprise networks, LANs, MANs, WANs). The following key areas and issues are regularly covered: -Transmission/Switching/Distribution technologies (ATM, SDH, TCP/IP, routers, DSL, cable modems, VoD, VoIP, WDM, etc.) -System control, network/service management -Network and Internet protocols and standards -Client-server, distributed and Web-based communication systems -Broadband and multimedia systems and applications, with a focus on increased service variety and interactivity -Trials of advanced systems and services; their implementation and evaluation -Novel concepts and improvements in technique; their theoretical basis and performance analysis using measurement/testing, modelling and simulation -Performance evaluation issues and methods.