ASTER Data Processing by Discrete Wavelets Transform and Band Ratio Techniques for the Identification of Lineaments and Hydrothermal Alteration Zones in Poli, North Cameroon

Mohamadou Ahamadou, May Nome Stella, Meying Arsène
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Abstract

The aim of this study is to carry out hydrothermal alteration mapping and structural mapping using ASTER images in order to identify indices that could guide mining exploration work in the Poli area and its surroundings. To achieve this, the ASTER images were first preprocessed to correct atmospheric effects and remove vegetation influence. Secondly, a lineament mapping was conducted by applying Discrete Wavelet Transform (DWT) algorithms to the First Principal Component Analysis (PCA1) of Visible Near-Infrared (VNIR) and Shortwave Infrared (SWIR) bands. Lastly, band ratio methods were applied to the VNIR, SWIR, and Thermal Infrared (TIR) bands to determine indices of iron oxides/hydroxides (hematite and limonite), hydroxyl-bearing minerals (chlorite, epidote, and muscovite), and the quartz index. The results obtained showed that the lineaments were mainly oriented NE-SW, ENE-WSW, and E-W, with NE-SW being the most predominant direction. Concerning hydrothermal alteration, the identified indices covered almost the entire study area and showed a strong correlation with lithological data. Overlaying the obtained lineaments with the hydrothermal alteration indices revealed a significant correlation between existing mining indices and those observed in the field. Mineralized zones generally coincided with areas of high lineament density exhibiting significant hydrothermal alteration. Based on the correlation between existing mining indices and the results of hydrothermal and structural mapping, the results obtained can then be used as a reference document for any mining exploration in the study area.
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用离散小波变换和带比技术处理ASTER数据识别喀麦隆北部波利地区的地貌和热液蚀变带
利用ASTER成像进行热液蚀变填图和构造填图,以确定指导波里地区及周边地区采矿勘探工作的指标。为了实现这一目标,首先对ASTER图像进行预处理,以校正大气影响并消除植被影响。其次,将离散小波变换(DWT)算法应用于可见光近红外(VNIR)和短波红外(SWIR)波段的第一主成分分析(PCA1)进行了纹理映射;最后,将波段比值法应用于近红外、SWIR和热红外(TIR)波段,确定氧化铁/氢氧化物(赤铁矿和褐铁矿)、含羟基矿物(绿泥石、绿帘石和白云母)和石英指数。结果表明,该构造物以NE-SW、ENE-WSW和E-W为主,以NE-SW为主。热液蚀变识别指标几乎覆盖了整个研究区,且与岩性资料具有较强的相关性。利用热液蚀变指数叠加得到的矿化特征,发现现有矿化指数与现场观测值具有显著的相关性。矿化带一般与具有明显热液蚀变特征的高线相吻合。根据现有采矿指标与热液和构造填图结果的相关性,得出的结果可作为研究区任何采矿勘探的参考文献。
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