4.12.8.2.3 Open Pit Mines, Analysis, Detection

Chapter Contents (Back)
Open-Pit Mines. Mine Detection. Mining Detection.
See also Mineral Composition Analysis, Material Composition.
See also Crater Detection, Impact Craters, Depressions.

Hartwig, M.E.[Marcos E.], Paradella, W.R.[Waldir R.], Mura, J.C.[José C.],
Detection and Monitoring of Surface Motions in Active Open Pit Iron Mine in the Amazon Region, Using Persistent Scatterer Interferometry with TerraSAR-X Satellite Data,
RS(5), No. 9, 2013, pp. 4719-4734.
DOI Link 1310
BibRef

Notesco, G.[Gila], Kopacková, V.[Veronika], Rojík, P.[Petr], Schwartz, G.[Guy], Livne, I.[Ido], Dor, E.B.[Eyal Ben],
Mineral Classification of Land Surface Using Multispectral LWIR and Hyperspectral SWIR Remote-Sensing Data. A Case Study over the Sokolov Lignite Open-Pit Mines, the Czech Republic,
RS(6), No. 8, 2014, pp. 7005-7025.
DOI Link 1410
BibRef

Tong, X.H.[Xiao-Hua], Liu, X.F.[Xiang-Feng], Chen, P.[Peng], Liu, S.J.[Shi-Jie], Luan, K.F.[Kui-Feng], Li, L.Y.[Ling-Yun], Liu, S.[Shuang], Liu, X.L.[Xiang-Lei], Xie, H.[Huan], Jin, Y.M.[Yan-Min], Hong, Z.H.[Zhong-Hua],
Integration of UAV-Based Photogrammetry and Terrestrial Laser Scanning for the Three-Dimensional Mapping and Monitoring of Open-Pit Mine Areas,
RS(7), No. 6, 2015, pp. 6635.
DOI Link 1507
BibRef

Mura, J.C.[José Claudio], Paradella, W.R.[Waldir R.], Gama, F.F.[Fabio F.], Silva, G.G.[Guilherme G.], Galo, M.[Mauricio], Camargo, P.O.[Paulo O.], Silva, A.Q.[Arnaldo Q.], Silva, A.[Aristotelina],
Monitoring of Non-Linear Ground Movement in an Open Pit Iron Mine Based on an Integration of Advanced DInSAR Techniques Using TerraSAR-X Data,
RS(8), No. 5, 2016, pp. 409.
DOI Link 1606
BibRef

Chen, W.T.[Wei-Tao], Li, X.J.[Xian-Ju], He, H.X.[Hai-Xia], Wang, L.Z.[Li-Zhe],
A Review of Fine-Scale Land Use and Land Cover Classification in Open-Pit Mining Areas by Remote Sensing Techniques,
RS(10), No. 1, 2018, pp. xx-yy.
DOI Link 1802
BibRef

Gong, C.G.[Chuan-Gang], Lei, S.G.[Shao-Gang], Bian, Z.F.[Zheng-Fu], Liu, Y.[Ying], Zhang, Z.[Zhouai], Cheng, W.[Wei],
Analysis of the Development of an Erosion Gully in an Open-Pit Coal Mine Dump During a Winter Freeze-Thaw Cycle by Using Low-Cost UAVs,
RS(11), No. 11, 2019, pp. xx-yy.
DOI Link 1906
BibRef

Chen, W.T.[Wei-Tao], Li, X.J.[Xian-Ju], Wang, L.Z.[Li-Zhe],
Fine Land Cover Classification in an Open Pit Mining Area Using Optimized Support Vector Machine and WorldView-3 Imagery,
RS(12), No. 1, 2019, pp. xx-yy.
DOI Link 2001
BibRef

Xu, Z.H.[Zhi-Hua], Xu, E.[Ershuai], Wu, L.X.[Li-Xin], Liu, S.J.[Shan-Jun], Mao, Y.[Yachun],
Registration of Terrestrial Laser Scanning Surveys Using Terrain-Invariant Regions for Measuring Exploitative Volumes over Open-Pit Mines,
RS(11), No. 6, 2019, pp. xx-yy.
DOI Link 1903
BibRef

Wang, S.[Shunyao], Lu, X.P.[Xiao-Ping], Chen, Z.W.[Zhen-Wei], Zhang, G.[Guo], Ma, T.[Taofeng], Jia, P.[Peng], Li, B.B.[Bei-Bei],
Evaluating the Feasibility of Illegal Open-Pit Mining Identification Using Insar Coherence,
RS(12), No. 3, 2020, pp. xx-yy.
DOI Link 2002
BibRef

Battulwar, R.[Rushikesh], Winkelmaier, G.[Garrett], Valencia, J.[Jorge], Naghadehi, M.Z.[Masoud Zare], Peik, B.[Bijan], Abbasi, B.[Behrooz], Parvin, B.[Bahram], Sattarvand, J.[Javad],
A Practical Methodology for Generating High-Resolution 3D Models of Open-Pit Slopes Using UAVs: Flight Path Planning and Optimization,
RS(12), No. 14, 2020, pp. xx-yy.
DOI Link 2007
BibRef

Ma, B.D.[Bao-Dong], Li, X.X.[Xue-Xin], Jiang, Z.W.[Zi-Wei], Pu, R.L.[Rui-Liang], Liang, A.[Aiman], Che, D.[Defu],
Dust Dispersion and Its Effect on Vegetation Spectra at Canopy and Pixel Scales in an Open-Pit Mining Area,
RS(12), No. 22, 2020, pp. xx-yy.
DOI Link 2011
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Giacomini, A.[Anna], Thoeni, K.[Klaus], Santise, M.[Marina], Diotri, F.[Fabrizio], Booth, S.[Shaun], Fityus, S.[Stephen], Roncella, R.[Riccardo],
Temporal-Spatial Frequency Rockfall Data from Open-Pit Highwalls Using a Low-Cost Monitoring System,
RS(12), No. 15, 2020, pp. xx-yy.
DOI Link 2008
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Wang, C.S.[Chun-Sheng], Chang, L.[Lili], Zhao, L.[Lingran], Niu, R.Q.[Rui-Qing],
Automatic Identification and Dynamic Monitoring of Open-Pit Mines Based on Improved Mask R-CNN and Transfer Learning,
RS(12), No. 21, 2020, pp. xx-yy.
DOI Link 2011
BibRef

Chen, T.[Tao], Hu, N.X.[Nai-Xun], Niu, R.Q.[Rui-Qing], Zhen, N.[Na], Plaza, A.[Antonio],
Object-Oriented Open-Pit Mine Mapping Using Gaofen-2 Satellite Image and Convolutional Neural Network, for the Yuzhou City, China,
RS(12), No. 23, 2020, pp. xx-yy.
DOI Link 2012
BibRef

Lin, Y.N.[Yunung Nina], Park, E.[Edward], Wang, Y.[Yu], Quek, Y.P.[Yu Pin], Lim, J.[Jana], Alcantara, E.[Enner], Loc, H.H.[Ho Huu],
The 2020 Hpakant Jade Mine Disaster, Myanmar: A multi-sensor investigation for slope failure,
PandRS(177), 2021, pp. 291-305.
Elsevier DOI 2106
Open-pit mine, Slope failure, Jade mine in Myanmar, Seepage failure, InSAR time-series, Phase linking BibRef

Zapico, I.[Ignacio], Laronne, J.B.[Jonathan B.], Castillo, L.S.[Lázaro Sánchez], Duque, J.F.M.[José F. Martín],
Improvement of Workflow for Topographic Surveys in Long Highwalls of Open Pit Mines with an Unmanned Aerial Vehicle and Structure from Motion,
RS(13), No. 17, 2021, pp. xx-yy.
DOI Link 2109
BibRef

Wang, L.[Lili], Yang, L.[Liao], Wang, W.S.[Wei-Sheng], Chen, B.[Baili], Sun, X.L.[Xiao-Lin],
Monitoring Mining Activities Using Sentinel-1A InSAR Coherence in Open-Pit Coal Mines,
RS(13), No. 21, 2021, pp. xx-yy.
DOI Link 2112
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Li, X.H.[Xin-Hui], Lei, S.G.[Shao-Gang], Liu, Y.[Ying], Chen, H.[Hang], Zhao, Y.[Yibo], Gong, C.G.[Chuan-Gang], Bian, Z.F.[Zheng-Fu], Lu, X.G.[Xiao-Guang],
Evaluation of Ecological Stability in Semi-Arid Open-Pit Coal Mining Area Based on Structure and Function Coupling during 2002-2017,
RS(13), No. 24, 2021, pp. xx-yy.
DOI Link 2112
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Wang, H.W.[Hong-Wei], Qi, Y.[Yuan], Zhang, J.[Juan], Zhang, J.L.[Jin-Long], Yang, R.[Rui], Guo, J.Y.[Jun-Yu], Luo, D.L.[Dong-Liang], Wu, J.[Jichun], Zhou, S.M.[Sheng-Ming],
Influence of Open-Pit Coal Mining on Ground Surface Deformation of Permafrost in the Muli Region in the Qinghai-Tibet Plateau, China,
RS(14), No. 10, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Hu, J.M.[Jia-Meng], Ye, B.Y.[Bao-Ying], Bai, Z.K.[Zhong-Ke], Feng, Y.[Yu],
Remote Sensing Monitoring of Vegetation Reclamation in the Antaibao Open-Pit Mine,
RS(14), No. 22, 2022, pp. xx-yy.
DOI Link 2212
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Zhao, L.R.[Ling-Ran], Niu, R.Q.[Rui-Qing], Li, B.Q.[Bing-Quan], Chen, T.[Tao], Wang, Y.[Yueyue],
Application of Improved Instance Segmentation Algorithm Based on VoVNet-v2 in Open-Pit Mines Remote Sensing Pre-Survey,
RS(14), No. 11, 2022, pp. xx-yy.
DOI Link 2206
BibRef

Li, W.[Wei], Li, J.[Jun], Du, S.H.[Shou-Hang], Zhang, C.Y.[Cheng-Ye], Xing, J.H.[Jiang-He],
Multi-Level Difference Network for Change Detection from Very High-Resolution Remote Sensing Images: A Case Study in Open-Pit Mines,
RS(15), No. 14, 2023, pp. 3482.
DOI Link 2307
BibRef

Gojkovic, Z.[Zoran], Kilibarda, M.[Milan], Brajovic, L.[Ljiljana], Marjanovic, M.[Miloš], Milutinovic, A.[Aleksandar], Ganic, A.[Aleksandar],
Ground Surface Subsidence Monitoring Using Sentinel-1 in the 'Kostolac' Open Pit Coal Mine,
RS(15), No. 10, 2023, pp. xx-yy.
DOI Link 2306
BibRef

Ren, Z.L.[Zi-Li], Wang, L.[Liguan], He, Z.X.[Zheng-Xiang],
Open-Pit Mining Area Extraction from High-Resolution Remote Sensing Images Based on EMANet and FC-CRF,
RS(15), No. 15, 2023, pp. xx-yy.
DOI Link 2308
BibRef

Li, S.Y.[Shi-Yao], Wang, R.[Run], Wang, L.[Lei], Liu, S.[Shaoyu], Ye, J.[Jiang], Xu, H.[Hang], Niu, R.Q.[Rui-Qing],
An Approach for Monitoring Shallow Surface Outcrop Mining Activities Based on Multisource Satellite Remote Sensing Data,
RS(15), No. 16, 2023, pp. 4062.
DOI Link 2309
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Meng, X.L.[Xiao-Liang], Wang, T.Y.[Tian-Yi], Cheng, D.[Dayu], Su, W.S.[Wen-Song], Yao, P.[Peng], Ma, X.L.[Xiao-Li], He, M.Z.[Mei-Zhen],
Enhanced Point Cloud Slicing Method for Volume Calculation of Large Irregular Bodies: Validation in Open-Pit Mining,
RS(15), No. 20, 2023, pp. 5006.
DOI Link 2310
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Wang, B.[Bing], Li, P.X.[Pei-Xian], Zhu, X.Y.[Xiao-Ya],
Quantification of Vegetation Phenological Disturbance Characteristics in Open-Pit Coal Mines of Arid and Semi-Arid Regions Using Harmonized Landsat 8 and Sentinel-2,
RS(15), No. 21, 2023, pp. 5257.
DOI Link 2311
BibRef

He, T.T.[Ting-Ting], Guo, J.[Jiwang], Xiao, W.[Wu], Xu, S.[Suchen], Chen, H.[Hang],
A novel method for identification of disturbance from surface coal mining using all available Landsat data in the GEE platform,
PandRS(205), 2023, pp. 17-33.
Elsevier DOI 2311
Surface coal mining, Time-series analysis, Distribution, Monitoring, LandTrendr, GEE BibRef

Murdaca, G.[Gianluca], Ricciuti, F.[Federico], Rucci, A.[Alessio], Le Saux, B.[Bertrand], Fumagalli, A.[Alfio], Prati, C.[Claudio],
A Semi-Supervised Deep Learning Framework for Change Detection in Open-Pit Mines Using SAR Imagery,
RS(15), No. 24, 2023, pp. 5664.
DOI Link 2401
BibRef

Meng, X.L.[Xiao-Liang], Zhang, D.[Ding], Dong, S.[Sijun], Yao, C.J.[Chun-Jing],
Open-Pit Granite Mining Area Extraction Using UAV Aerial Images and the Novel GIPNet,
RS(16), No. 5, 2024, pp. 789.
DOI Link 2403
BibRef

Zhang, N.[Nianbin], Wang, Y.J.[Yun-Jia], Zhao, F.[Feng], Wang, T.[Teng], Zhang, K.W.[Ke-Wei], Fan, H.D.[Hong-Dong], Zhou, D.W.[Da-Wei], Zhang, L.[Leixin], Yan, S.Y.[Shi-Yong], Diao, X.P.[Xin-Peng], Song, R.[Rui],
Monitoring and Analysis of the Collapse at Xinjing Open-Pit Mine, Inner Mongolia, China, Using Multi-Source Remote Sensing,
RS(16), No. 6, 2024, pp. 993.
DOI Link 2403
BibRef

Muhammed, M.A.[Mohammed Ahmed], Hassen, A.M.[Abubeker Mohammed], Abera, T.A.[Temesgen Alemayehu], Wraase, L.[Luise], Ejigu, B.L.[Behailu Legese], Hailu, B.T.[Binyam Tesfaw], Miehe, G.[Georg], Zeuss, D.[Dirk],
Long-Term Volumetric Change Estimation of Red Ash Quarry Sites in the Afro-Alpine Ecosystem of Bale Mountains National Park in Ethiopia,
RS(16), No. 7, 2024, pp. 1226.
DOI Link 2404
BibRef

de Souza-Penna, N.[Nath¡lia], Porsani, J.L.[Jorge Luis], Rangel, R.C.[Rodrigo Corra], Costa, V.H.H.[Victor Hugo Hott], de Oliveira, N.C.[Nicolas Correa], Stangari, M.C.[Marcelo Cesar], de Carvalho-Braz-de Faria-Sousa, C.[Conrado ],
Near-Surface Geophysical Characterization of a Marble Deposit to Promote a Sustainable Small-Scale Mining,
RS(16), No. 7, 2024, pp. 1147.
DOI Link 2404
BibRef

Fonseca, A.[Alejandro], Marshall, M.T.[Michael Thomas], Salama, S.[Suhyb],
Enhanced Detection of Artisanal Small-Scale Mining with Spectral and Textural Segmentation of Landsat Time Series,
RS(16), No. 10, 2024, pp. 1749.
DOI Link 2405
BibRef


Yuan, H.[Hao], Liu, S.B.[Shao-Bo], Yang, H.[Hao], Du, S.T.[Shui-Ting], Tian, L.[Lin],
Remote monitoring method of deep foundation pit operation equipment based on AIOT technology and data mining,
CVIDL23(210-213)
IEEE DOI 2403
Deep learning, Databases, Stability criteria, Time measurement, Data mining, Time factors, Indexes, AIOT technology, Data mining, Monitoring method BibRef

Zhang, J.,
Insar Collaborative Monitoring Mode and Multi-mode Computing Services For Geohazards Identification In Open-pit Mining Area,
ISPRS21(B1-2021: 241-247).
DOI Link 2201
BibRef

Yousefi, S.M., Arefi, H., Bahroudi, A.,
Detecting Probable Rockfalls in Open Pit Mines Based On UAV Point Clouds,
SMPR19(1091-1096).
DOI Link 1912
BibRef

Shahbazi, M., Sohn, G., Théau, J., Ménard, P.,
UAV-Based Point Cloud Generation for Open-Pit Mine Modelling,
UAV-g15(313-320).
DOI Link 1512
BibRef

Thurley, M.J.,
Automated Image Segmentation and Analysis of Rock Piles in an Open-Pit Mine,
DICTA13(1-8)
IEEE DOI 1412
geophysical image processing BibRef

Li, L.Y.[Lan-Yong], Song, W.D.[Wei-Dong],
Research of establishment and application for spatio-temporal data models of an open-pit stope,
IASP10(164-168).
IEEE DOI 1004
Mine changes. BibRef

Qiang, F.[Fan], Zhang, Y.[Yanan], Li, H.L.[Hai-Long],
The Study on Earthwork Calculation of Open-Pit Mine Based on Three-Dimensional Laser Scanning Technology,
CISP09(1-4).
IEEE DOI 0910
BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Mine Reclamation, Mine Remediation, Restoration, Mining Restoration .


Last update:Sep 28, 2024 at 17:47:54