Spectral Management of Multiple Wireless Signals Based Cognitive Radio

Ammar Abdul, Hamed Khader, A. Shabani, M. Beg
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Abstract

Intelligent radio resource management (RRM) policies could be applied to minimize the harmful effects of interference and an uneven load distribution. RRM should provide efficient spectrum and channel allocation mechanisms, modulation selection algorithms, power control and load balancing. Spectrum sensing is a key enabling technology for a broad class of cognitive radio systems involving spectrum agility. In order to identify spectral opportunities, spectrum sensing is needed by the secondary users (SU). In this paper a spectral management and sensing for three types of wireless signals within the IEEE802 family (Wi-Fi, Zig-Bee and Bluetooth) are presented. Then SU efficiently exploit the idle spectrum and vacate it when required by primary user (PU). A simulation system is built and Energy Detector technique is used for sensing the spectrum. The results shows that delay times for changing the status between exploiting and vacating the channels are too low. The error detection is occurred in limited range of SNR because of using fixed threshold level. 
基于认知无线电的多无线信号频谱管理
智能无线电资源管理(RRM)策略可以最大限度地减少干扰和负载分布不均匀的有害影响。RRM应该提供有效的频谱和信道分配机制、调制选择算法、功率控制和负载平衡。频谱感知是涉及频谱敏捷性的一类认知无线电系统的关键使能技术。为了识别频谱机会,二级用户(SU)需要进行频谱感知。本文介绍了IEEE802系列中三种无线信号(Wi-Fi、zigbee和蓝牙)的频谱管理和传感。然后SU有效地利用空闲频谱,并在主用户(PU)需要时将其清空。建立了仿真系统,利用能量探测器技术对光谱进行检测。结果表明,利用信道和腾出信道之间改变状态的延迟时间过低。由于使用固定的阈值水平,错误检测发生在有限的信噪比范围内。
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