噪声辅助多元经验模态分解在VLF-EM数据识别中的应用

IF 0.5 Q4 MATHEMATICS, INTERDISCIPLINARY APPLICATIONS

Advances in Data Science and Adaptive Analysis Pub Date : 2017-01-01 DOI:10.1142/S2424922X1650011X

Sungkono, B. J. Santosa, A. S. Bahri, F. Santos, A. Iswahyudi

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引用次数: 7

摘要

甚低频电磁(VLF-EM)方法可用于地下电阻率成像，该成像可直接用于确定地下状况。VLF-EM数据通常受到有害噪声的污染，这往往导致电阻率成像结果的错误。在本研究中，应用噪声辅助的多元经验模态分解(NA-MEMD)来抑制VLF-EM数据中包含的不需要的噪声，从而产生NA-MEMD滤波的VLF-EM数据。过滤后的VLF-EM数据的电阻率成像已用于确定印度尼西亚中爪哇省Gunung Kidul地区喀斯特地区地下河的位置。结果表明，na - memd滤波后的VLF-EM数据在确定苏嗣洞区地下河流轨迹方面更为准确。总体结果得到了观测到的VLF-EM数据以及na - memd滤波的VLF-EM数据的定性分析(Fraser和K-Hjelt滤波器)的支持。

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Application of Noise-Assisted Multivariate Empirical Mode Decomposition in VLF-EM Data to Identify Underground River

Very low-frequency electromagnetic (VLF-EM) method can be used for imaging the subsurface resistivity, where this image can be used directly to determine subsurface condition. VLF-EM data are generally contaminated with unwanted noise which often leads to a mistake in the resistivity imaging result. In this study, noise-assisted multivariate empirical mode decomposition (NA-MEMD) was applied to reject the unwanted noise contained within the VLF-EM data which produced NA-MEMD-filtered VLF-EM data. The resistivity imaging resulted by filtered VLF-EM data has been used for determining the position of underground rivers over the karst area of Gunung Kidul district, Central Java province, Indonesia. The results show that the NA-MEMD-filtered VLF-EM data were more accurate in determining underground river tracks of the Suci cave areas. The overall result was supported by qualitative analyses (Fraser and K–Hjelt filters) of observed VLF-EM data as well as the NA-MEMD-filtered VLF-EM data.

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Advances in Data Science and Adaptive Analysis MATHEMATICS, INTERDISCIPLINARY APPLICATIONS-

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