Han Hai-hui, Wang Yilin, Zhang Zhuan, Ren Guang-li, Yang Min
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Extraction of Altered Mineral from Remote Sensing Data in Gold Exploration Based on the Nonlinear Analysis Technology
Researchers have found that the mixed pixels exist in complex geological conditions often lead to distortion of altered minerals' spectral curves, and the accuracy of altered mineral extract from remote sensing data was reduced. Fortunately, the nonlinear analysis is a feasible solution. In this paper, by analyzing the nonlinear characteristics of the geological anomalies, the Fractal Dimension Change Point Method (FDCPM) will be used to extract the altered minerals' threshold from multispectral image. The realization theory and access mechanism of the model are elaborated by an experiment with ASTER data in Xinjinchang and Laojinchang gold deposits. The results show that the findings produced by FDCPM are agreed with well with a mounting body of evidence from different perspectives. The extracting accuracy over 86% show that FDCPM is an effective extrating method for remote sensing alteration anomalies, and it could be used as an useful tool for mineral exploration in similar areas in Beishan mineralization belt in northwest China.
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