Cooperative spectrum sharing of multiple primary users and multiple secondary users

This paper proposes a multiple-input multiple-output (MIMO) based cooperative dynamic spectrum access (DSA) framework that enables multiple primary users (PUs) and multiple secondary users (SUs) to cooperate in spectrum sharing. By exploiting MIMO in cooperative DSA, SUs can relay the primary traffi...

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Bibliographic Details
Published inDigital communications and networks Vol. 2; no. 4; pp. 191 - 195
Main Authors Liu, Hang, Hua, Sha, Zhuo, Xuejun, Chen, Dechang, Cheng, Xiuzhen
Format Journal Article
LanguageEnglish
Published KeAi Communications Co., Ltd 01.11.2016
Subjects
Bargaining game
Cooperative spectrum sharing
Dynamic spectrum access
MIMO
Relay selection
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ISSN2352-8648
2352-8648
DOI10.1016/j.dcan.2016.10.005

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Summary:This paper proposes a multiple-input multiple-output (MIMO) based cooperative dynamic spectrum access (DSA) framework that enables multiple primary users (PUs) and multiple secondary users (SUs) to cooperate in spectrum sharing. By exploiting MIMO in cooperative DSA, SUs can relay the primary traffic and send their own data at the same time, which greatly improves the performance of both PUs and SUs when compared to the non- MIMO time-division spectrum sharing schemes. Especially, we focus on the relay selection optimization problem among multiple PUs and multiple SUs. The network-wide cooperation and competition are formulated as a bargaining game, and an algorithm is developed to derive the optimal PU-SU relay assignment and resource allocation. Evaluation results show that both primary and secondary users achieve significant utility gains with the proposed framework, which gives all of them incentive for cooperation.
Bibliography:This paper proposes a multiple-input multiple-output (MIMO) based cooperative dynamic spectrum access (DSA) framework that enables multiple primary users (PUs) and multiple secondary users (SUs) to cooperate in spectrum sharing. By exploiting MIMO in cooperative DSA, SUs can relay the primary traffic and send their own data at the same time, which greatly improves the performance of both PUs and SUs when compared to the non- MIMO time-division spectrum sharing schemes. Especially, we focus on the relay selection optimization problem among multiple PUs and multiple SUs. The network-wide cooperation and competition are formulated as a bargaining game, and an algorithm is developed to derive the optimal PU-SU relay assignment and resource allocation. Evaluation results show that both primary and secondary users achieve significant utility gains with the proposed framework, which gives all of them incentive for cooperation.
Dynamic spectrum access; MIMO; Relay selection ;Cooperative spectrum sharing; Bargaining game
50-1212/TN
ISSN:2352-8648
2352-8648
DOI:10.1016/j.dcan.2016.10.005