高移动环境下IR-UWB系统的RAKE接收

Xiaoya Zuo, Ding Wang, Rugui Yao
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引用次数: 5

摘要

介绍了一种高移动环境下脉冲无线电超宽带(IR-UWB)系统的RAKE接收新方法。传统的UWB多径分集接收方式是RAKE接收机,通常应用于静态环境下。在高移动环境中,由于超宽带信号的带宽非常宽,频率成分的移位不同,这使得脉冲宽度在时域上发生变化。针对块传输超宽带系统,引入导频符号估计尺度变化因子。对RAKE接收机的模板信号进行重采样以补偿多普勒效应。仿真结果表明,该方法可以消除多普勒效应,提高误码率。仿真结果还表明,误码率性能不仅与相对速度有关,还与分组长度和导频符号周期有关。导频符号周期增大,性能下降。因此,在实践中应根据移动环境设计好块结构。
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RAKE reception for IR-UWB systems in high mobile environments
A new method of RAKE reception for Impulse Radio Ultra Wideband (IR-UWB) systems in high mobile environments is described. The conventional multipath diversity reception method for UWB is RAKE receiver, which is usually applied under static environments. In high mobile environments, due to extremely wide bandwidth of UWB signals, frequency components are shifted differently and this makes the pulse-width change in the time domain. Aiming at block-transmission UWB systems, pilot symbols are inserted to estimate the scale change factor. Template signal for RAKE receiver is resampled to compensate the Doppler effect. Simulation results demonstrate that this method could eliminate the Doppler effect and improve the bit error rate (BER) performance. Simulation results also show that the BER performance is not only related to relative velocity, but also related to block length and pilot symbol period. When pilot symbol period increases, the performance degrades. So in the practise block structure should be well designed according to the mobile environments.
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