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| Distributed Sparse Spectrum Detection in Multihop Cognitive Underwater Acoustict Communication Networks |
| Zuo Jia-kuo① Tao Wen-feng① Bao Yong-qiang② Fang Shi-liang① Zhao Li① Zou Cai-rong① |
①(Key Laboratory of Underwater Acoustic Signal Processing of Ministry of Education, Southeast University, Nanjing 210003, China)
②(School of Communication Engineering, Nanjing Institute of Technology, Nanjing 210003, China) |
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Abstract Since the underwater acoustic channel suffers often severe frequency-dependent attenuation, low speed of wave propagation and excessive multipath delay spread, the implementation of spectrum detection in Cognitive Underwater Acoustic Communication (CUAC) becomes very difficult. Beside, there is no fusion center in Ad hoc underwater acoustic communication networks. Therefore, the centralized spectrum detection methods in CUAC are not available. Similar to Cognitive Radio (CR), since the spectrum utility in CUAC is also low, the spectrum is sparse. Based on compressed sensing and considering the specificity of underwater acoustic, compressed spectrum detection algorithm for cognitive radio is improved, and then two distributed cooperative spectrum detection methods, which are suitable for CUAC, are proposed for different scenarios (with and without channel state information). By strengthening among secondary users, the proposed algorithms obtain spatial diversity gains and exploit joint sparse structure to improve the performance of spectrum detection. Via distributed computation and localized optimization, the new schemes entail low computation and power overhead per cognitive users. Simulation results corroborate the effectiveness of the proposed methods in detecting the spectrum holes in underwater acoustic environment.
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Received: 11 January 2013
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Corresponding Authors:
Zuo Jia-kuo
E-mail: zuojiakuo85418@163.com
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2013, Vol. 35 
