MIMO cooperative spectrum sensing in hybrid satellite/terrestrial scenario

L. Pierucci, R. Fantacci
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引用次数: 1

Abstract

In a hybrid satellite/terrestrial scenario, the paper analyzes the advantages of using a cooperative scheme combined with Multiple-Input Multiple-Output (MIMO) technologies at each cognitive radio (CR) node for spectrum sensing. In the proposed scenario, the satellite and the terrestrial components use the same band (primary users) and a group of secondary users (sensors or mobile users) want to dynamically share the spectrum without harmful interference on primary user (PU). The satellite can also report measures provided by the group of secondary users to a remote center in an area where the mobile coverage it is difficult to extend or for emergency situations. The joint use of multiple antennas at each CR node and cooperative cognitive radio scheme is analyzed to improve the performance of the conventional energy detector (ED) and to increase the reliability in PU detection. A coordination center (CC) takes the final decision based on the detections carried out by all the CRS. Moreover, the CC can manage a strategy to allow equal and fare share of the radio resources to the group of CR nodes. The use of improved energy detector based on the average power of received samples is also analyzed. Simulation results show that the use of cooperation and MIMO technologies improves the detection even at low value of signal to noise ratio (SNR) and a trade off-it is necessary among the number of multiple antennas, the number of samples and the spectrum usage efficiency and the level of interference on the PU.
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卫星/地面混合场景中的MIMO协同频谱感知
在卫星/地面混合场景下,分析了在每个认知无线电(CR)节点上使用多输入多输出(MIMO)技术相结合的协作方案进行频谱感知的优势。在该方案中,卫星和地面组件使用同一频段(主用户),一组辅助用户(传感器或移动用户)希望在不对主用户(PU)造成有害干扰的情况下动态共享频谱。卫星还可以向移动覆盖范围难以扩大的地区或紧急情况的远程中心报告二级用户组提供的措施。分析了在每个CR节点上联合使用多天线和协同认知无线电方案,以提高传统能量探测器(ED)的性能,提高PU探测的可靠性。协调中心(CC)根据所有CRS进行的检测做出最终决定。此外,CC还可以管理一种策略,以允许CR节点组平分无线电资源。分析了基于接收样品平均功率的改进型能量检测器的使用。仿真结果表明,即使在信噪比较低的情况下,使用协作和MIMO技术也能提高检测效果,并且需要在多天线数量、采样数量、频谱利用效率和PU上的干扰水平之间进行权衡。
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