Abstract
Cognitive radio is an intelligent radio network that has advancement over traditional radio. The difference between the traditional radio and the cognitive radio is that all the unused frequency spectrum can be utilized to the best of available resources in the cognitive radio unlike the traditional radio. The core technology of cognitive radio is spectrum sensing, in which secondary users (SUs) opportunistically access the spectrum while avoiding interference to primary user (PU) channels. Various aspects of the spectrum sensing have been studied from the perspective of cognitive radio. Cooperative spectrum sensing (CSS) technique provides a promising performance, compared with individual sensing techniques. However, the existence of malicious users (MUs) highly degrades the performance of cognitive radio network (CRN) by sending falsified results to a fusion center (FC). In this paper, we propose a machine learning algorithm based on support vector machine (SVM) to classify legitimate SUs and MUs in the CRN. The proposed SVM-based algorithm is used for both classification and regression. It clearly classifies legitimate SUs and MUs by drawing a hyperplane on the base of maximal margin. After successful classification, the sensing results from the legitimate SUs are combined at the FC by utilizing Dempster-Shafer (DS) evidence theory. The effectiveness of the proposed SVM-based classification algorithm is demonstrated through simulations, compared with existing schemes.
Highlights
IntroductionThe demand of spectrum is increasing consistently, which yields scarcity in spectrum resource
With burgeoning wireless technologies, the demand of spectrum is increasing consistently, which yields scarcity in spectrum resource
We consider a cognitive radio network (CRN) with M = 10 secondary users (SUs)
Summary
The demand of spectrum is increasing consistently, which yields scarcity in spectrum resource. By the federal communication commission (FCC), it has been resolved that underutilization of licensed spectrum bands in either temporal or spatial is a principal reason of the spectrum scarcity [1]. To efficiently utilize the spectrum resource, cognitive radio (CR) with adaptive intelligence is fascinating researchers and developers to break through a spectrum congestion bottleneck [2]. CR is an intelligent wireless communication technology with efficient spectrum utilization, trying to learn environments and adjust its parameters properly [2]. Licensed primary users (PUs) can transmit at any time with no restrictions, while secondary users (SUs) in CR networks (CRNs) obtain the benefit of spectrum access when the PUs do not use the corresponding spectrum [3]
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