Alteration zone mapping in tropical region: A comparison between data-driven and knowledge-driven techniques

IF 1.3 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Pankajini Mahanta, Sabyasachi Maiti
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引用次数: 0

Abstract

Mapping alteration zones, a crucial step for mineral exploration, faces challenges in tropical areas. Dense vegetation hides important geological features, recent clay formation hides deeper alterations, and human activities like farming make it more complicated. However, alteration zones are crucial clues for specific ore deposits. We explore two approaches: one based on knowledge and the other on data. The knowledge-driven method involves experienced geologists analyzing GIS layers, including lineaments, drainage patterns, rock types, and topography. They use this data to identify key signs of ore-forming alterations. Translating this expert knowledge into spatial data helps us map alteration zones effectively. While this approach provides good approximations, it lacks direct evidence. The data-driven method involves advanced remote sensing tools like ASTER imagery. High-resolution data allows us to use image processing techniques to extract alteration information. However, conventional techniques face challenges in the tropics due to dense vegetation and human activity. To overcome this, we use machine learning algorithms trained on carefully selected samples. We found that among selected ASTER-derived products of conventional DIP techniques (reflectance, band ratio, PCA, DPCA), directed PCA alone is capable of demarcating alteration for the study area with a total accuracy of 81.41, 83.92, and 84.42% for LR, ANN, and RF, respectively. Besides, we used contextual geological evidence of alteration presence as another validation method. To validate results, we use the knowledge-driven approach again, employing Relative Alteration Indexes. All alteration indicative field and geological knowledge were weighted with the Analytical Hierarchy Process (AHP) and spatially integrated with three probability classes in the GIS platform. This combined strategy reveals that while Random Forest has the highest accuracy, Logistic Regression yields more geologically significant results. The high value of Relative Alteration Indexes representing highly altered zones indicates their successful mapping from both data and knowledge-driven techniques. This study shows the strengths of both approaches in understanding alteration zones in the tropics. By combining expert knowledge with advanced technology, we can pinpoint areas rich in valuable minerals, even in difficult-to-explore places. Our successful test in the South Purulia region suggests similar discoveries are possible in other unknown areas.

Abstract Image

热带地区的蚀变带绘图:数据驱动技术与知识驱动技术的比较
绘制蚀变带地图是矿产勘探的关键步骤,但在热带地区却面临着挑战。茂密的植被掩盖了重要的地质特征,新近形成的粘土掩盖了更深层的蚀变,而耕作等人类活动则使情况更加复杂。然而,蚀变带是特定矿藏的重要线索。我们探索了两种方法:一种基于知识,另一种基于数据。知识驱动法是由经验丰富的地质学家分析地理信息系统图层,包括线形、排水模式、岩石类型和地形。他们利用这些数据来识别成矿变化的关键迹象。将这些专家知识转化为空间数据,有助于我们有效地绘制蚀变区地图。虽然这种方法提供了很好的近似值,但缺乏直接证据。数据驱动法涉及先进的遥感工具,如 ASTER 图像。高分辨率数据使我们能够利用图像处理技术提取蚀变信息。然而,由于植被茂密和人类活动,传统技术在热带地区面临挑战。为了克服这一问题,我们使用了在精心挑选的样本上进行训练的机器学习算法。我们发现,在选定的 ASTER 导出传统 DIP 技术(反射率、波段比、PCA、DPCA)产品中,仅定向 PCA 就能划分研究区域的蚀变,LR、ANN 和 RF 的总准确率分别为 81.41%、83.92% 和 84.42%。此外,我们还将蚀变存在的背景地质证据作为另一种验证方法。为了验证结果,我们再次采用知识驱动法,使用相对蚀变指数。我们采用层次分析法(AHP)对所有指示性蚀变的实地和地质知识进行了加权,并在地理信息系统平台中将其与三个概率类别进行了空间整合。这一综合策略表明,虽然随机森林的准确性最高,但逻辑回归的结果更具地质意义。代表高蚀变区的相对蚀变指数值很高,这表明数据和知识驱动技术都能成功绘制高蚀变区地图。这项研究显示了这两种方法在了解热带地区蚀变区方面的优势。通过将专家知识与先进技术相结合,我们可以精确定位富含有价值矿物的区域,即使是在难以勘探的地方。我们在南普鲁利亚地区的成功试验表明,在其他未知地区也有可能发现类似的矿藏。
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来源期刊
Journal of Earth System Science
Journal of Earth System Science Earth and Planetary Sciences-General Earth and Planetary Sciences
CiteScore
3.20
自引率
5.30%
发文量
226
期刊介绍: The Journal of Earth System Science, an International Journal, was earlier a part of the Proceedings of the Indian Academy of Sciences – Section A begun in 1934, and later split in 1978 into theme journals. This journal was published as Proceedings – Earth and Planetary Sciences since 1978, and in 2005 was renamed ‘Journal of Earth System Science’. The journal is highly inter-disciplinary and publishes scholarly research – new data, ideas, and conceptual advances – in Earth System Science. The focus is on the evolution of the Earth as a system: manuscripts describing changes of anthropogenic origin in a limited region are not considered unless they go beyond describing the changes to include an analysis of earth-system processes. The journal''s scope includes the solid earth (geosphere), the atmosphere, the hydrosphere (including cryosphere), and the biosphere; it also addresses related aspects of planetary and space sciences. Contributions pertaining to the Indian sub- continent and the surrounding Indian-Ocean region are particularly welcome. Given that a large number of manuscripts report either observations or model results for a limited domain, manuscripts intended for publication in JESS are expected to fulfill at least one of the following three criteria. The data should be of relevance and should be of statistically significant size and from a region from where such data are sparse. If the data are from a well-sampled region, the data size should be considerable and advance our knowledge of the region. A model study is carried out to explain observations reported either in the same manuscript or in the literature. The analysis, whether of data or with models, is novel and the inferences advance the current knowledge.
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