A novel Rayleigh lidar signal denoising algorithm for far-field noise suppression and high-accuracy retrieval

SPIE/COS Photonics Asia Pub Date : 2023-11-28 DOI:10.1117/12.2687008

Tong Wu, Degang Xu, K. Zhong, Xianzhong Zhang, Xinqi Li, Xiaojian Zhang, Jianquan Yao

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Abstract

A novel signal denoising framework (EEMD-VMD-IMWOA) for Rayleigh lidar is proposed to better suppress noise in an atmospheric lidar echo signal and improve retrieval accuracy. The ensemble empirical mode decomposition (EEMD) is used to retain the intrinsic mode functions (IMFs) of signal as the low-frequency effective component. Based on the denoising ability of variational mode decomposition (VMD) under high noise signal, the IMFs with noise is further denoised by VMD to obtain high-frequency effective component, wherein the improved whale optimization algorithm (IMWOA) is used to get the optimal decomposition layer K and the quadratic penalty α of VMD. Then, the low-frequency and high-frequency effective components are reconstructed to gain denoised signal. The simulation results show that the denoising effect of EEMD-VMD-IMWOA is superior to Wavelet threshold, EEMD and VMD, especially the far-field noise interference can be suppressed. Under the condition that the temperature retrieval error is less than ± 10 K, when the integration time is only 600s, the effective retrieval altitude can reach 59.6km, which is 17.3% higher than that without denoising. Finally, the retrieval accuracy of the measured lidar signal is significantly improved by EEMD-VMD-IMWOA.

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用于远场噪声抑制和高精度检索的新型雷利激光雷达信号去噪算法

为更好地抑制大气激光雷达回波信号中的噪声并提高检索精度，提出了一种新颖的雷利激光雷达信号去噪框架（EEMD-VMD-IMWOA）。利用集合经验模态分解（EEMD）保留信号的固有模态函数（IMF）作为低频有效成分。基于变异模态分解（VMD）在高噪声信号下的去噪能力，利用 VMD 进一步去噪，得到高频有效分量，并利用改进的鲸鱼优化算法（IMWOA）得到最佳分解层 K 和 VMD 的二次惩罚α。然后，对低频和高频有效成分进行重构，以获得去噪信号。仿真结果表明，EEMD-VMD-IMWOA 的去噪效果优于小波阈值、EEMD 和 VMD，尤其能抑制远场噪声干扰。在温度检索误差小于±10 K的条件下，当积分时间仅为 600s 时，有效检索高度可达 59.6km，比未去噪时提高了 17.3%。最后，EEMD-VMD-IMWOA 显著提高了激光雷达测量信号的检索精度。

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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SPIE/COS Photonics Asia

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