Abstract
Over the past few years, dynamic spectrum access has been gaining an increasing attention as a solution to the spectrum scarcity problem. In this paper, a primary user detection technique based on Maximum A Posteriori estimation is proposed for dynamic spectrum access networks. In the proposed technique, a set of secondary users acting as sensing nodes send their individual decisions about the existence of the primary user to a central fusion center. The fusion center uses the received data to form a codeword then, applies the maximum a posteriori estimation rule to make a final decision regarding the presence of the primary user. The proposed technique takes into consideration the accuracy of the local decisions provided by the secondary users when making a final decision. In this paper, we analyze the performance of the proposed scheme and derive closed-form expressions for the upper bounds of the false alarm and misdetection probabilities. The results show that the proposed technique outperforms other combining techniques in terms of its ability to detect the primary user and, accordingly, minimizes the harmful interference to the licensed network. Moreover, the proposed technique achieves better performance at a lower number of reporting secondary users which compensates for the complexity of the maximum a posteriori estimation.
Highlights
The rapid development in wireless technologies created a large demand on the frequency spectrum, which is not satisfied using the current spectrum management policies [1]
The proposed technique was implemented at the central fusion center where the individual sensing decisions, regarding the presence of the primary
The fusion center applies the Maximum A Posteriori (MAP) technique using the collected results to obtain a final estimation regarding the presence of the primary user and disseminated it to the secondary users
Summary
The rapid development in wireless technologies created a large demand on the frequency spectrum, which is not satisfied using the current spectrum management policies [1]. A. Tohamy et al.: Cooperative Spectrum Sensing Using MAP as a Detection Technique detector wrongly declares that the PU is active utilizing its frequency band. Tohamy et al.: Cooperative Spectrum Sensing Using MAP as a Detection Technique detector wrongly declares that the PU is active utilizing its frequency band This wrong decision causes the SU to miss the opportunity to utilize the PU’s free frequency band. We propose a centralized cooperative spectrum sensing framework that is based on Maximum A Posteriori (MAP) detection for DSA networks. In this framework, the sensing process occurs in two successive phases. Proposing a MAP-based centralized cooperative spectrum sensing technique for DSA networks.
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