Transmit Power Allocation among PSWF-based Pulse Wavelets in Cognitive UWB Radio

Xiaofei Zhou, Honggang Zhang, I. Chlamtac
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引用次数: 5

Abstract

Ultra wideband (UWB) technology has been considered as one of the suitable transmission techniques for implementing a cognitive radio system, where spectrum-agile UWB waveforms achieve adaptation features. One approach for designing such waveforms relies on orthogonally combining PSWF-based pulse wavelets. In a cognitive UWB radio environment with N users, with respect to the case of one sub-band accessed by one user, whose transmitting signal is M-ary pulse shape modulated, we get different eigenvalues by transmitting these pulses in a multipath fading channel, we propose water filling scheme, depending on the different eigenvalues, to optimize the power allocation among them. Simulation results show that the scheme improves the sub-band channel data throughput compared with the scheme that power is equal allocated among these pulse wavelets, when the SNR is low, which is the normal case in UWB communications
认知超宽带无线电中基于pswf的脉冲小波发射功率分配
超宽带(UWB)技术被认为是实现认知无线电系统的一种合适的传输技术,在这种系统中,频谱敏捷的UWB波形可以实现自适应特性。设计这种波形的一种方法依赖于基于pswf的脉冲小波的正交组合。在有N个用户的认知UWB无线电环境中,针对一个用户接入一个子频带,发射信号为M-ary脉冲形状调制的情况,在多径衰落信道中发射这些脉冲得到不同的特征值,并根据不同的特征值提出了注水方案,以优化它们之间的功率分配。仿真结果表明,在超宽带通信中信噪比较低的情况下,与功率均等分配方案相比,该方案提高了子带信道的数据吞吐量
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