Abstract
To detect the primary user’s activity accurately in cognitive radio sensor networks, cooperative spectrum sensing is recommended to improve the sensing performance and the reliability of spectrum-sensing process. However, spectrum-sensing data falsification attack being launched by malicious users may lead to fatal mistake of global decision about spectrum availability at the fusion center. It is a tough task to mitigate the negative effect of spectrum-sensing data falsification attack and even eliminate these attackers from the network. In this article, we first discuss the randomly false attack model and analyze the effects of two classes of attacks, individual and collaborative, on the global sensing performance at the fusion center. Afterwards, a linear weighted combination scheme is designed to eliminate the effects of the attacks on the final sensing decision. By evaluating the received sensing result, each user can be assigned a weight related to impact factors, which includes result consistency degree and data deviation degree. Furthermore, an adaptive reputation evaluation mechanism is introduced to discriminate malicious and honest sensor node. The evaluation is conducted through simulations, and the results reveal the benefits of the proposed in aspect of mitigation of spectrum-sensing data falsification attack.
Highlights
In cognitive radio sensor networks (CRSN), the sensors with cognitive radio devices can employ dynamic spectrum access technology to use licensed spectrum bands on an opportunistic manner
Based on the analysis of node’s result consistency degree and data deviation degree, a linear weighted combination scheme is designed to eliminate the effects of sensing data falsification (SSDF) attacks on the final sensing decision
We propose an adaptive reputation-based mechanism, which does not require prior information about the number of attackers or attacking strategies, to defend against both independent and collaborative attacks based on soft SSDF
Summary
In cognitive radio sensor networks (CRSN), the sensors with cognitive radio devices can employ dynamic spectrum access technology to use licensed spectrum bands on an opportunistic manner. CSS is vulnerable to suffer from various kinds of security threats.[5] Among them, spectrum-sensing data falsification (SSDF) attack can severely impair cooperative sensing performance, in which local false observations sent by malicious users (MUs) during the process of cooperative sensing.[6] Even small number of MUs behaving maliciously, such as broadcasting falsified information or not following proper collaboration mechanism, it will result in serious damage on the reliability of CSS.[7] As a result, it is necessary to design a secure and effective cooperative spectrum-sensing mechanism to resist SSDF attacks To this end, this article presents the main contributions as follows: 1.
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