Error detection of malicious user attack in cognitive radio networks

2017 International Conference on Radar, Antenna, Microwave, Electronics, and Telecommunications (ICRAMET) Pub Date : 2017-10-01 DOI:10.1109/ICRAMET.2017.8253152

N. Armi, W. Gharibi, W. Khan, H. Zangoti, S. Rizvi, C. Wael

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引用次数: 3

Abstract

Malicious user is internal attacker that disturb communication. In case of cognitive radio, malicious user attacks primary signal detection and influences the fidelity of sensing outcome. This paper studies malicious user attack and its impacts to sensing outcome in cognitive radio network (CRN). We consider a number of malicious user that emulate primary user (PU) signal. Malicious users are randomly deployed around secondary user (SU) at a certain distance. The distance between PU transmitter and SU is 100 km. We define different number of malicious user and observe the impact to detection error rate. The change of transmission power of malicious user is also studied. These two cases is investigated under two hypothesis of Neyman Pearson criterion. The derived results show that increasing number of malicious user can increase probability of error rate. Furthermore, increasing power transmission of malicious user can increase probability of error rate as well.

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认知无线网络中恶意用户攻击的错误检测

恶意用户是内部干扰通信的攻击者。在认知无线电中，恶意用户攻击主信号检测，影响感知结果的保真度。研究了认知无线网络中恶意用户攻击及其对感知结果的影响。我们考虑了一些恶意用户模拟主用户(PU)信号。恶意用户随机部署在辅助用户(secondary user, SU)周围一定距离处。PU发射机与SU之间的距离为100公里。我们定义了不同数量的恶意用户，并观察了对检测错误率的影响。研究了恶意用户的传输功率变化。在Neyman - Pearson准则的两个假设下对这两种情况进行了研究。推导结果表明，恶意用户数量的增加会增加错误率的概率。此外，增加恶意用户的功率传输也会增加错误率的概率。

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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2017 International Conference on Radar, Antenna, Microwave, Electronics, and Telecommunications (ICRAMET)

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