Geologic Mapping, Geology Analysis, Mineralogy

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Geological Mapping. Some overlap with: See also Mineral Composition Analysis. See also Seismic Analysis, Geological Analysis, Wells. See also Geological Analysis, Rocks.

Abrams, M., Blusson, A., Carrere, V., Nguyen, T., Rabu, Y.,
Image Processing Applications for Geologic Mapping,
IBMRD(29), No. 2, March 1985, pp. 177-187. BibRef 8503

Pareschi, M.T.[Maria Teresa], and Bernstein, R.[Ralph],
Modeling and image processing for visualization of volcanic mapping,
IBMRD(33), No. 4, July 1989, pp. 406-416. BibRef 8907

Suzen, M.L., Toprak, V.,
Filtering of Satellite Images in Geological Lineament Analyses: An Application to a Fault Zone in Central Turkey,
JRS(19), No. 6, April 1998, pp. 1101-1114. 9805

Deroin, J.P., Motti, E., Simonin, A.,
A Comparison of the Potential for Using Optical and SAR Data for Geological Mapping in an Arid Region: The Atar Site, Western Sahara, Mauritania,
JRS(19), No. 6, April 1998, pp. 1115-1132. 9805

Lu, P.F., An, P.,
A Metric for Spatial Data Layers in Favorability Mapping for Geological Events,
GeoRS(37), No. 3, May 1999, pp. 1194.
IEEE Top Reference. BibRef 9905

Kruse, F.A.[Fred A.], Perry, S.L.[Sandra L.],
Mineral Mapping Using Simulated Worldview-3 Short-Wave-Infrared Imagery,
RS(5), No. 6, 2013, pp. 2688-2703.
DOI Link 1307

Li, Z.W.[Zhen-Wang], Jiao, Q.J.[Quan-Jun], Liu, L.Y.[Liang-Yun], Tang, H.[Huan], Liu, T.[Tong],
Monitoring Geologic Hazards and Vegetation Recovery in the Wenchuan Earthquake Region Using Aerial Photography,
IJGI(3), No. 1, 2014, pp. 368-390.
DOI Link 1404

Emerson, C.[Charles], Bommersbach, B.[Bryan], Nachman, B.[Brett], Anemone, R.[Robert],
An Object-Oriented Approach to Extracting Productive Fossil Localities from Remotely Sensed Imagery,
RS(7), No. 12, 2015, pp. 15848.
DOI Link 1601
geological, geospatial, and spectral features. BibRef

Jakob, S.[Sandra], Gloaguen, R.[Richard], Laukamp, C.[Carsten],
Remote Sensing-Based Exploration of Structurally-Related Mineralizations around Mount Isa, Queensland, Australia,
RS(8), No. 5, 2016, pp. 358.
DOI Link 1606

Zhang, T.B.[Ting-Bin], Yi, G.H.[Gui-Hua], Li, H.M.[Hong-Mei], Wang, Z.Y.[Zi-Yi], Tang, J.X.[Ju-Xing], Zhong, K.H.[Kang-Hui], Li, Y.B.[Yu-Bin], Wang, Q.[Qin], Bie, X.J.[Xiao-Juan],
Integrating Data of ASTER and Landsat-8 OLI (AO) for Hydrothermal Alteration Mineral Mapping in Duolong Porphyry Cu-Au Deposit, Tibetan Plateau, China,
RS(8), No. 11, 2016, pp. 890.
DOI Link 1612

Guo, J.T.[Jia-Teng], Wu, L.X.[Li-Xin], Zhou, W.H.[Wen-Hui], Jiang, J.Z.[Ji-Zhou], Li, C.L.[Chao-Ling],
Towards Automatic and Topologically Consistent 3D Regional Geological Modeling from Boundaries and Attitudes,
IJGI(5), No. 2, 2016, pp. 17.
DOI Link 1603

Cui, Y.[Yang], Li, Q.Q.[Qing-Quan], Li, Q.Y.[Qing-Yuan], Zhu, J.S.[Jia-Song], Wang, C.S.[Chi-Sheng], Ding, K.[Kai], Wang, D.[Dan], Yang, B.[Bisheng],
A Triangular Prism Spatial Interpolation Method for Mapping Geological Property Fields,
IJGI(6), No. 8, 2017, pp. xx-yy.
DOI Link 1708

Zhang, R.[Ruisi], Zeng, M.[Min],
Mapping Lithologic Components of Ophiolitic Mélanges Based on ASTER Spectral Analysis: A Case Study from the Bangong-Nujiang Suture Zone (Tibet, China),
IJGI(7), No. 1, 2018, pp. xx-yy.
DOI Link 1801

Liu, H.F.[Hai-Feng], Ren, C.[Chao], Zheng, Z.T.[Zhong-Tian], Liang, Y.J.[Yue-Ji], Lu, X.J.[Xian-Jian],
Study of a Gray Genetic BP Neural Network Model in Fault Monitoring and a Diagnosis System for Dam Safety,
IJGI(7), No. 1, 2018, pp. xx-yy.
DOI Link 1801

Marion, R.[Rodolphe], Carrère, V.[Véronique],
Mineral Mapping Using the Automatized Gaussian Model (AGM): Application to Two Industrial French Sites at Gardanne and Thann,
RS(10), No. 1, 2018, pp. xx-yy.
DOI Link 1802

Hoang, N.T.[Nguyen Tien], Koike, K.[Katsuaki],
Comparison of hyperspectral transformation accuracies of multispectral Landsat TM, ETM+, OLI and EO-1 ALI images for detecting minerals in a geothermal prospect area,
PandRS(137), 2018, pp. 15-28.
Elsevier DOI 1802
Hyperion image, Hyperspectral transformation, Reflectance spectrum, Multiple linear regression model, Mineral mapping BibRef

Latifovic, R.[Rasim], Pouliot, D.[Darren], Campbell, J.[Janet],
Assessment of Convolution Neural Networks for Surficial Geology Mapping in the South Rae Geological Region, Northwest Territories, Canada,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804

Testa, F.J.[Francisco J.], Villanueva, C.[Cecilia], Cooke, D.R.[David R.], Zhang, L.[Lejun],
Lithological and Hydrothermal Alteration Mapping of Epithermal, Porphyry and Tourmaline Breccia Districts in the Argentine Andes Using ASTER Imagery,
RS(10), No. 2, 2018, pp. xx-yy.
DOI Link 1804

Yang, X.W.[Xian-Wu], Tang, G.[Guoan], Meng, X.[Xin], Xiong, L.Y.[Li-Yang],
Classification of Karst Fenglin and Fengcong Landform Units Based on Spatial Relations of Terrain Feature Points from DEMs,
RS(11), No. 16, 2019, pp. xx-yy.
DOI Link 1909

Pour, A.B., Hashim, M., Park, Y.,
Regional Geological Mapping in the Graham Land of Antarctic Peninsula Using Landsat-8 Remote Sensing Data,
DOI Link 1805

Amusuk, D.J., Hashim, M.[Mazlan], Pour, A.B.[Amin Beiranvand], Musa, S.I.,
Utilization of LANDSAT-8 Data for Lithological Mapping of Basement Rocks of Plateau State North Central Nigeria,
DOI Link 1612

Gou, J., Zhou, W., Wu, L.,
Implicit Three-Dimensional Geo-Modelling Based on HRBF Surface,
DOI Link 1612
3D geological models from two-dimensional (2D) geological elements. BibRef

Pour, A.B.[Amin Beiranvand], Hashim, M.[Mazlan], Hong, J.K.,
Application of Multispectral Satellite Data for Geological Mapping in Antarctic Environments,
DOI Link 1612
See also Geological Features Mapping Using Palsar-2 Data in Kelantan River Basin, Peninsular Malaysia. BibRef

Harvey, A.S., Fotopoulos, G.,
Geological Mapping Using Machine Learning Algorithms,
ISPRS16(B8: 423-430).
DOI Link 1610

Ishidoshiro, N., Yamaguchi, Y., Noda, S., Asano, Y., Kondo, T., Kawakami, Y., Mitsuishi, M., Nakamura, H.,
Geological Mapping By Combining Spectral Unmixing And Cluster Analysis For Hyperspectral Data,
ISPRS16(B8: 431-435).
DOI Link 1610

Williams, D.A.,
Nasa's Planetary Geologic Mapping Program: Overview,
ISPRS16(B4: 519-520).
DOI Link 1610

Jarna, A., Bang-Kittilsen, A., Haase, C., Henderson, I.H.C., Høgaas, F., Iversen, S., Seither, A.,
3-Dimensional Geological Mapping and Modeling Activities at the Geological Survey of Norway,
DOI Link 1602

Sima, A.[Aleksandra], Buckley, S.[Simon], Schneider, D.[Danilo], Howell, J.[John],
An improved workflow for image-and laser-based virtual geological outcrop modelling,
PDF File. 1009

Shankar, V., Rodriguez, J.J., Gettings, M.E.,
Texture Analysis for Automated Classification of Geologic Structures,

Mavrantza, O.D., Argialas, D.P.,
Object-Oriented Image Analysis for the Identification of Geologic Lineaments,
PDF File. 0607
See also Identification of Urban Features Using Object-Oriented Image Analysis. BibRef

Selmaoui, N., Repetti, B., Laporte-Magoni, C., Allenbach, M.,
Image Analysis for Core Geological Descriptions: Strata and Granulometry Detection,
ICPR04(IV: 305-310).

Chapter on Remote Sensing, Cartography, Aerial Images, Buildings, Roads, Terrain, ATR continues in
Photogrammetry, Books on Photogrammetry .

Last update:Oct 1, 2019 at 15:23:24