Browse > Article
http://dx.doi.org/10.9727/jmsk.2016.30.1.1

The Case Study : The Efficiency of Using UAV and 3D-model for Mine Reclamation Work Monitoring  

Kim, Seyoung (Department of Astronomy, Space Science and Geology, Chungnam National University)
Yu, Jaehyung (Department of Geology and Earth Environmental Sciences, Chungnam National University)
Shin, Ji Hye (Department of Astronomy, Space Science and Geology, Chungnam National University)
Lee, Gilljae (Convergence Research Center for Development of Mineral Resources, Korea Institute of Geoscience and Mineral Resources)
Publication Information
Journal of the Mineralogical Society of Korea / v.30, no.1, 2017 , pp. 1-9 More about this Journal
Abstract
This study investigated the effectiveness of Unmanned Aerial Vehicle (UAV) and 3D modeling on mine reclamation monitoring. The high spatial resolution of 3.8 cm ortho-mosaic image and Digital Elevation Model (DEM) are constructed based on UAV air survey. The ortho-mosaic image effectively shows mine reclamation activities and recognize objects and topological changes in the image. The comparative analysis of 3D models between UAV based DEM and report based DEM reveals that total amount of $268,672m^3$ additional dumping of contaminated soil is equivalent to 710,000 ton. It concludes that a UAV based survey enables high accuracy spatial information extraction for mine reclamation activities with high efficiency. It is expected that UAV survey will be very effectively used for preliminary data acquisition and project monitoring for mine reclamation activities.
Keywords
UAV; 3D-model; DEM; Mine reclamation work;
Citations & Related Records
Times Cited By KSCI : 6  (Citation Analysis)
연도 인용수 순위
1 Agisoft, L.L.C., (2013) Agisoft PhotoScan User Manual-Professional Edition, Version 1.0.0, Online Publishing. 102p.
2 Bae S.J. et al. (2016) Thematic and geometric analysis of Bangpo beach based on UAV Remote Sensing. Journal of the Korean Geomorphological Association. Vol. 23. No.1 00-00.
3 DJI (2016) Phnatom3 professional User Manual Ver 1.8, Online Publishing. 59p.
4 Gwun, H.H. and Nam, G.S. (2007) Engineering of Mining Hazard Prevention and Reclamation. DongHwa Technology Publishing, Paju, 327p.
5 Hill, E.J., Oliver, N.H., Cleverley, J.S., Nugus, M.J., Carswell, J., and Clark, F. (2014) Characterisation and 3D modelling of a nuggety, vein-hosted gold ore body, Sunrise Dam. Western Australia. Journal of Structural Geology, 67, 222-234.   DOI
6 Jung, Y.B., Song, W.K., and Kang, S.S. (2008) Development of subsidence hazard estimation method based on the depth of gangway. Tunnel and underground space, 18(4), 272-279.
7 Kim H.S. (2009) The case study : Evaluation Method of reserves and 3D modeling for oversea mineral development. The Geological Society of Korea, 112-112.
8 Kim, S.L. and Park, J.H. (2015) Research and Development Trends for Mine Subsidence Prevention Technology in Korea. Tunnel and Underground Space, 25(5), 408-416.   DOI
9 Kim S.G. (2014) A Study on Construction and Application of Spatial Information Utilizing Unmanned Aerial Vehicle System. Ph.D. Thesis, Mokpo National University, Mokpo. 179p.
10 Kwun, H.H. (2007) Current state of the mine reclamation and the direction of the mine reclamation policy. The Korean Society of Engineering Geology seminar paper. 131-145.
11 Kwak, J.Y. and Choi, J.B. (2013) 3D Modeling and resource estimation of the Archean greenstone belt gold deposits in Australia by using GOCAD. In Proceedings of the Annual Joint Conference, the Mineralogical Society of Korea and the Petrological Society of Korea, 3-5.
12 Kwak, J.Y., Choi, J.B., and Cho, H.G. (2013) 3D Modeling For Resources Estimation of Ilmenite Deposits in Jikjeon-Ri, Hadong Korea. Journal of the Mineralogical Society of Korea, 26(4), 285-297.   DOI
13 Lee, S.J. and Choi, Y. (2015) On-site Demonstration of Topographic Surveying Techniques at Open-pit Mines using a Fixed-wing Unmanned Aerial Vehicle (Drone). Tunnel and Underground Space, 25(6), 527-533.   DOI
14 Ministry of Knowledge Economy (2011) The second phase Mine reclamation prevention planning [2012-2016]. Ministry of Knowledge Economy, 61p.
15 Ming, J., Pan, M., Qu, H., and Ge, Z. (2010) GSIS: A 3D geological multi-body modeling system from netty cross-sections with topology. Computers & Geosciences, 36(6), 756-767.   DOI
16 Mine Reclamation Corp. (2013) 2012 Yearbook of MIRECO statistics. Mine Reclamation Corp. 332p.
17 Mine Reclamation Corp. (2014) Technical series 2014-005, Mine reclamation (The first) working design report of the Donga asbestos mine area, 272p.
18 Park, J.K., Das, A., and Park, J.H. (2015) Application trend of unmanned aerial vehicle (UAV) image in agricultural sector: Review and proposal. Korean Journal of Agricultural Science, 42(3), 269-276.   DOI
19 Son, Y. and Kim, J. (2012). Mine Haulage System Design for Reopening of Yangyang Iron Mine using 3D Modelling. Tunnel and Underground Space, 22(6), 412-428.   DOI
20 Yum, K.J., Kim P.G., and Park, E.W. (1999) Effects of Sewage Sludge Application for Restoration of Abandoned Mine Area. Journal of Korean Society of Environmental Engineers, 21(12), 2329-2340.