去除 GRACE 条纹噪声的二维频域算法

IEEE Journal on Miniaturization for Air and Space Systems Pub Date : 2023-11-17 DOI:10.1109/JMASS.2023.3334149

Yuwei Lan;Taoli Yang;Yong Wang

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引用次数: 0

摘要

重力恢复和气候实验（GRACE）传感器观测地球储水层间质量分布的变化，从而估算陆地水阶段（TWS）。遗憾的是，估算结果受到噪声的影响，主要表现为南北向条纹。在热带地区，噪声的影响非常严重。现有的去噪算法可以去除条纹，但噪声去除和信号保存效果有待进一步提高。因此，我们提出了一种新的二维频域滤波算法，由陷波滤波器组和低通滤波器组成。此外，还提出了相对和绝对差值（RSAD）来评估噪声去除和信号保存效果。所提出的算法在模拟有噪声的 GRACE Level-2 数据中去除了条纹噪声并保留了信号。通过 RSAD 的定性和定量评估，去噪结果令人满意。此外，所提出的算法在去除噪声和保留信号方面优于现有的三种去噪算法。

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A 2-D Frequency-Domain Algorithm to Remove GRACE Stripe Noise

The gravity recovery and climate experiment (GRACE) sensors observe changes in the Earth’s mass distribution between water storage compartments, estimating the terrestrial water stage (TWS). Unfortunately, the estimation is affected by noise, characterized by primary north–south-oriented stripes. The noise impact is severe in tropical areas. Existing denoising algorithms remove the stripes, but the noise removal and signal preservation can be further improved. Thus, a new 2-D frequency-domain filtering algorithm is proposed, consisting of notch filter banks and a low-pass filter. Also, the relative sum absolute difference (RSAD) is proposed to evaluate noise removal and signal preservation effectiveness. The proposed algorithm removed stripe noise and preserved signal in simulated noisy GRACE Level-2 data. The denoised results were satisfactory qualitatively and quantitatively assessed by the RSAD. In addition, the proposed algorithm outperforms three existing denoising algorithms in noise removal and signal preservation.

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