摘要
基于激光自混合理论,提出了一种双外腔激光自混合干涉信号分离的方法,以实现两路微振动的同时测量。用EMD算法对不同频率的两路激光自混合信号进行分离。以原始信号和各IMF分量的互相关系数作为判断依据,选择出高频一路所需的IMF分量。根据两路自混合信号具有线性叠加的性质,原始信号减去高频一路信号即得低频一路信号。对分离出的每一路信号进行频谱分析,利用主频阶次判定法实现振幅重构。结果表明,仿真和实验信号均能有效被分离。
Based on the theory of laser self-mixing,a two-external-cavity laser self-mixing interference signal separation method is proposed to achieve simultaneous measurement of two-external-cavity micro-vibration.The EMD algorithm is used to separate the two laser self-mixing signals of different frequencies.The correlation coefficient between the original signal and each IMF component is used as the judgment basis,and the IMF component required for the high frequency is selected.According to the linear superposition property of the two-external-cavity self-mixing signal having a linear superposition,the high-frequency signal is subtracted from the original signal to obtain the low-frequency signal.Then,the spectrum analysis is performed on each of the separated signals,and the amplitude reconstruction is realized by dominant harmonic order determination algorithm.The results show that both the simulated and experimental signals can be effectively separated.
作者
高丙坤
刘径舟
张子超
GAO Bing-kun;LIU Jing-zhou;ZHANG Zi-chao(School of Electrical Engineering & Information,Northeast Petroleum University,Daqing 163318,China;Zhongran Hongsheng Energy Technology Corporation,Langfang 065000,China)
出处
《激光与红外》
CAS
CSCD
北大核心
2020年第6期675-681,共7页
Laser & Infrared
基金
黑龙江省科学基金项目(No.E2016013)资助。
关键词
激光传感器
两路自混合干涉
EMD
互相关
主频阶次判定法
laser sensor
two-way self-mixing interference
EMD
cross-correlation
dominant harmonic order determination algorithm