Ghoneim Sobhi M, Hamimi Zakaria, Abdelrahman Kamal, Khalifa Mohamed A, Shabban Mohamed, Abdelmaksoud Ashraf S
Department of Surveying and Remote Sensing, School of Geoscience and Info-Physics, Central South University, Changsha, 410083, China.
Department of Mineral Resources, National Authority for Remote Sensing and Space Sciences, Cairo, Egypt.
Sci Rep. 2024 Jul 24;14(1):17010. doi: 10.1038/s41598-024-66199-3.
Machine learning and remote sensing techniques are widely accepted as valuable, cost-effective tools in lithological discrimination and mineralogical investigations. The current study represents an attempt to use machine learning classification along with several remote sensing techniques being applied to Landsat-8/9 satellite data to discriminate the various outcropping lithological rock units at the Duwi Shear Belt (DSB) area in the Central Eastern Desert of Egypt. Multi-class machine learning classification, multiple conventional remote sensing mapping techniques, spectral separability analysis based on the Jeffries-Matusita (J-M) distance measure, fieldwork, and petrographic investigations were integrated to enhance the lithological discrimination of the exposed rock units at DSB area. The well-recognized machine learning classifier (Support Vector Machine-SVM) was adopted in this study, with training data determined carefully based on enhancing the lithological discrimination attained from various remote sensing techniques of False Color Composites (FCC), Principal Component Analysis (PCA), and Minimum Noise Fraction (MNF), along with the fieldwork data and the previously published geologic maps. High overall accuracy of the SVM classification was obtained, however, inspection of the individual rock unit classes' accuracies revealed lower accuracy for certain types of rock units which were also found associated with lower separability scores as well. Among the least separable rock units were; metagabbro rocks that showed high spectral similarity with the volcaniclastic metasediments rocks, and the metaultramafics of the ophiolitic mélange showed spectral attitude of high correlation to that of the Hammamat volcanosedimentary rocks. Target-oriented Color Ratio Composites (CRC) technique was implemented to better discriminate these hardly separable rock units. A final integrated geological map was obtained comprising the various discriminated Neoproterozoic basement rock units of the DSB area. The successfully mapped litho-units include; Meatiq Group (amphibolites, gneissic granitoids, and mylonitized granitoids), ophiolitic mélange (metaultramafics, metagabbro-amphibolites, and volcaniclastic metasediments), Dokhan volcanics, Hammamat sediments, and granites. An adequate description of these rock units was also given in light of the conducted intense fieldwork and petrographic investigations.
机器学习和遥感技术被广泛认为是岩性判别和矿物学研究中具有价值、成本效益高的工具。当前的研究尝试将机器学习分类与多种遥感技术相结合,应用于陆地卫星8/9号卫星数据,以判别埃及中东沙漠杜维剪切带(DSB)地区出露的各种岩性岩石单元。综合了多类机器学习分类、多种传统遥感制图技术、基于杰弗里斯 - 马图西塔(J - M)距离度量的光谱可分性分析、野外工作和岩相学研究,以增强对DSB地区出露岩石单元的岩性判别。本研究采用了公认的机器学习分类器(支持向量机 - SVM),基于增强从各种遥感技术(假彩色合成(FCC)、主成分分析(PCA)和最小噪声分离(MNF))以及野外工作数据和先前发表的地质图中获得的岩性判别,仔细确定了训练数据。SVM分类获得了较高的总体精度,然而,对各个岩石单元类别的精度检查发现,某些类型的岩石单元精度较低,这些岩石单元的可分性得分也较低。其中最难分离的岩石单元有:显示出与火山碎屑变质沉积岩具有高光谱相似性的变质辉长岩,以及蛇绿混杂岩中的变质超镁铁岩显示出与哈马马特火山沉积岩的光谱特征高度相关。实施了面向目标的颜色比值合成(CRC)技术,以更好地判别这些难以分离的岩石单元。最终获得了一幅综合地质图,包含了DSB地区各种已判别的新元古代基底岩石单元。成功绘制的岩性单元包括:梅蒂克群(角闪岩、片麻状花岗岩类和糜棱岩化花岗岩类)、蛇绿混杂岩(变质超镁铁岩、变质辉长岩 - 角闪岩和火山碎屑变质沉积岩)、多坎火山岩、哈马马特沉积物和花岗岩。根据进行的密集野外工作和岩相学研究,还对这些岩石单元进行了充分描述。
