基于 CS-FastICA 的超导电磁数据消噪方法研究
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TH763

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国家自然科学基金(42030104)、中国科学院开放课题(SKL202205)、吉林大学创新创业训练计划项目(202210183045)资助


Research on the superconducting electromagnetic denoising method based on CS-FastICA
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    摘要:

    超导电磁探测极易受到环境电磁噪声的干扰,严重影响了数据的解释精度。 针对这一问题,提出了一种基于信噪分离 消噪原理的超导电磁噪声抑制方法。 该方法首先利用 FastICA 算法从观测信号中分离提取二次磁场信号,然后针对信号分离 后的幅值不确定性问题,基于最大化非高斯性和最小畸变准则构建优化约束模型,最后利用 CS 搜索算法迭代求解分离矩阵的 最优参数值。 仿真结果显示,本文方法在信噪比和均方误差指标上均优于 PCA、WA 和 ICA 方法,消噪后信号的信噪比提高了 16. 6 dB。 现场实验表明,本文方法对多种环境电磁噪声均具有良好的抑制效果,消噪后观测信有效时间提高了近 4 倍。 观测 信号质量得到了显著改善,视电阻率成像解释深度达 1 000 m,充分验证了本文方法的有效性和实用性。

    Abstract:

    The superconducting electromagnetic detection is highly susceptible to interference from environmental electromagnetic noise, which seriously affects the accuracy of data interpretation. To address this issue,this paper proposes a superconducting electromagnetic noise suppression method based on the principle of signal-to-noise separation and denoising. Firstly, the FastICA algorithm is utilized to extract the secondary magnetic field signal from the observed signal. Then, an optimization constraint model is formulated, which is based on maximizing non-gaussianity and minimizing distortion to address the uncertainty of the signal amplitude after separation. Finally, the CS search algorithm is used to iteratively solve for the optimal parameters of the separation matrix. Simulation experiment results show that the proposed method outperforms the PCA, WA and ICA methods in terms of signal-to-noise ratio and mean square error metrics, with a 16. 6 dB improvement in signal-to-noise ratio after noise reduction. Field experiment results show that the proposed method has good suppression effects on various environmental electromagnetic noise. The effective signal duration is increased by nearly 4 times after denoising. The observed signal quality is significantly improved, and the imaging interpretation depth reaches 1 000 m. The effectiveness and practicality of the proposed method is fully evaluated.

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高全明,张瀚文,侯宇丹,张嘉宸,嵇艳鞠.基于 CS-FastICA 的超导电磁数据消噪方法研究[J].仪器仪表学报,2023,44(8):109-117

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  • 在线发布日期: 2023-12-19
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