摘要
多通道微弱电流信号受很多噪声因素的干扰,导致输出的微弱电流信号与原始信号之间的相对误差增加,控制效果变差,为此提出基于经验小波变换的多通道微弱电流信号噪声控制方法;采集多通道微弱电流信号,利用经验小波变换技术分解采集到的微弱电流信号,判断电流信号中是否存在噪声并确定噪声类型;设计微弱电流信号噪声控制器,根据电流信号中的噪声量与噪声类型生成控制指令,对不同通道微弱电流信号噪声进行控制;在两种不同噪声强度的实验环境下,该方法控制下的多通道微弱电流信号信噪比较高,输出信号与原始信号间的相对误差较低,控制任务完成时间更短;以此证明该方法的多通道微弱电流信号噪声控制效果更好,可以广泛应用至电流信号噪声控制领域。
Multi-channel weak current signals are interfered with many noise factors,resulting in an increase in relative error between the output weak current signal and original signal,and its control effect becomes poor.Therefore,a multi-channel weak current signal noise control method based on empirical wavelet transform is proposed.By collecting the multi-channel weak current signals,the empirical wavelet transform technology is used to decompose the collected weak current signals,determine whether there is noise in the current signal,and determine the type of noise.Based on the amount and type of noise in the current signal,a weak current signal noise controller is designed to generate control instructions,and control the weak current signal noise in different channels.In two experimental environments with different noise intensities,the multi-channel weak current signal of this method has a high signal-to-noise ratio,lower relative error between the output signal and original signal,and shorter control task completion time,which proves that the multi-channel weak current signal noise control effect of the method is better,it can be widely applied in the field of current signal noise control.
作者
于双江
倪建军
富帅
YU Shuangjiang;NI Jianjun;FU Shuai(Beijing Institute of Space Mechanics&Electricity,Beijing 100076,China)
出处
《计算机测量与控制》
2024年第2期122-128,共7页
Computer Measurement &Control
关键词
经验小波变换
多通道
微弱电流信号
噪声控制
信号分解
噪声量
噪声类型
empirical wavelet transform
multi-channel
weak current signal
noise control
signal decomposition
noise level
noise type