Clipping distortion analysis and optimal power allocation for ACO-OFDM based visible light communication

Qing-feng Lu, Xin-Sheng Ji, Kai-zhi Huang
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引用次数: 4

Abstract

This paper analyses the nonlinear clipping distortion of asymmetrically clipped optical OFDM (ACO-OFDM) based visible light communications system (VLC) and proposes an optimal power allocation method for reducing the clipping distortion. Firstly, we analyze the LED nonlinear clipping distortion based on the clipping process model that original signal directly added nonlinear clipping distortion components. Then, the effective signal to noise ratio (ESNR) is defined to measure the clipping distortion, and the clipping distortion analysis is converted into ESNR analysis. Finally, the optimal power allocation under optical power constraints base on the principle of ESNR optimum is proposed. Simulation results show that reasonable power allocation can effectively reduce the LED nonlinear clipping distortion and ensure that the bit error rate (BER) is less than 10-3.
基于ACO-OFDM的可见光通信削波失真分析及最优功率分配
分析了基于非对称截光OFDM (ACO-OFDM)的可见光通信系统(VLC)的非线性截光失真,提出了一种降低截光失真的最优功率分配方法。首先,基于原始信号直接加入非线性裁剪失真分量的裁剪过程模型,分析了LED的非线性裁剪失真;然后,定义有效信噪比(ESNR)来测量削波失真,并将削波失真分析转化为ESNR分析。最后,提出了基于ESNR优化原理的光功率约束下的最优功率分配方法。仿真结果表明,合理的功率分配可以有效降低LED的非线性裁剪失真,保证误码率小于10-3。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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