Research on Adaptive Threshold of Received Signal in Communication System

Xizheng Ke, Xukuan Ji
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Abstract

When the light beam propagates in the atmosphere, the signal will be absorbed and scattered by the gas molecules and water mist in the atmosphere, which will cause the loss of power rate. The complex atmospheric environment will produce a variety of adverse effects on the signal. The interference produced by these effects overlaps with each other, which will seriously affect the strength of the received signal. Therefore, how to effectively suppress the atmospheric turbulence effect in the random atmospheric turbulence channel, ensure the normal transmission of the signal in the atmospheric channel, and reduce the bit error rate of the communication system, is very necessary to improve the communication system. When processing the received signal, it is an important step to detect the transmitted signal by comparing the received signal with the threshold. In this paper, based on the atmospheric turbulence distribution model, the adaptive signal decision threshold is obtained through the estimation of high-order cumulant. Monte Carlo method is used to verify the performance of adaptive threshold detection. The simulation results show that the high-order cumulant estimation of atmospheric turbulence parameters can realize the adaptive change of the decision threshold with the channel condition. It is shown that the adaptive threshold detection can effectively restrain atmospheric turbulence, improve the performance of free space optical and improve the communication quality.
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通信系统中接收信号的自适应阈值研究
当光束在大气中传播时,信号会被大气中的气体分子和水雾吸收和散射,从而导致功率率的损失。复杂的大气环境会对信号产生各种不利影响。这些效应产生的干扰相互重叠,这将严重影响接收信号的强度。因此,如何有效抑制随机大气湍流信道中的大气湍流效应,保证信号在大气信道中的正常传输,降低通信系统的误码率,对于改善通信系统是非常必要的。在处理接收信号时,通过将接收信号与阈值进行比较来检测发送信号是重要的步骤。本文在大气湍流分布模型的基础上,通过对高阶累积量的估计,得到了自适应信号判决阈值。采用蒙特卡罗方法验证了自适应阈值检测的性能。仿真结果表明,大气湍流参数的高阶累积量估计可以实现决策阈值随信道条件的自适应变化。结果表明,自适应阈值检测可以有效抑制大气湍流,提高自由空间光学性能,提高通信质量。
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