Abstract
The application variants of remote metering technologies, such as laser scanning and airborne imaging, are discussed. Based on the international experience gained in photogrammetry, a technique is proposed for surveying using a camera, quadcopter, electronic tacheometer and an appropriate software support. The sources of errors and the requirements imposed on the survey precision in point positioning in the horizontal and in the vertical are determined. The experimental approval of the technique with the assessment of the obtained data accuracy has been carried out in the Sokolovskaya Mine of the Sokolov-Sarbai Mining and Processing Production Association.
Similar content being viewed by others
References
Barsukov, I.V. and Morin, S.V., Geomekhanicheskoe i marksheiderskoe obespechenie bezopasnoi ekspluatatsii zdanii i sooruzhenii, vozvodimykh na podrabotannykh territoriyakh likvidirovannykh shakht. Gornaya geomekhanika i marksheiderskoe delo: sb. nauch. trud. (Geomechanics and Survey Management of Safe Use of Buildings and Facilities Constructed on the Subsided Territories of Abandoned Mines. Mine Geomechanics and Survey: Collection of Papers), Saint-Petersburg: VNIMI, 2009.
Okhrana nedr i geologo-marksheiderskii kontrol’. Instruktsiya po proizvodstvu marksheiderskikh rabot. Federal’nyi gornyi i promyshlennyi nadzor Rossii (Protection of Earth Resourses and Geological Survey Control, Guidelines on Survey Works. Federal Mining and Industrial Supervision Authority of Russia), Moscow: FGUP NTTs Promyshlennaya bezopasnost’, 2004.
Instruktsiya po topograficheskoi s”emke v masshtabakh 1:5000, 1:2000, 1:1000 i 1:500 (Guidelines on Topographic Survey at Scales of 1:5000, 1:2000, 1:1000 and 1:500), GUGK, Moscow: Nedra, 1983.
Popov, V.N., Vorkovastov, K.S., Stolchnev, V.G., Rudenko, V.V., Alferov, A.Yu., and Makurin, A.B., Marksheiderskie raboty na kar’erakh i priiskakh: spravochnik (Surveying at Surface Mines and Placers: Reference Book), Moscow: Nedra, 1989.
Zheltysheva, O.D., Laser Scanning Technology Application in Monitoring of Buildings and Constructions Deformations, Geomechanics in Mining: Proc. Sci.-Tech. Conf., Yekaterinburg: IM UB RAS, 2012, pp. 189–194.
Ozhigin, D.S., Creating Stability of the Open Pit Walls in the Area of Dragline Mining, Trudy KarGTU, 2017, no. 4 (69), pp. 68–72.
Tokunzhin, E.N., Rostov, S.A., Ozhigin, S.G., and Ozhigina, S.B., Geomechanical Monitoring with Application of Advanced Measurement Techniques, Proc. Int. Forum of Innovative Technologies in Geodesy, Mine Surveying and Geotechnics, Karaganda: Izd. KarGTU, 2017, pp. 103–109.
Meng, X., Wang, L., Silván-Cárdenas, J.L., and Currit, N., A Multi-Directional Ground Filtering Algorithm for Airborne LIDAR, ISPRS J. of Photogrammetry and Remote Sensing, 2009, vol. 64, no. 1, pp. 117–124.
Sanchez, F., Royo, B., and Meloni, F., InSAR Ground Motion Monitoring for Mining Areas, Proc. Internat. Forum of Innovative Technologies in Geodesy, Mine Surveying and Geotechnics, Karaganda: Izd. KarGTU, 2017, pp. 15–21.
Daakir, M., Pierrot-Deseilligny, M., Bosser, P., and Pichard, F., UAV Onboard Photogrammetry and GPS Positioning for Earthworks, Proc. ISPRS Geospatial Week. The Int. Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 2015, vol. XL-3/W3, pp. 293–298.
Blaha, M., Eisenbeiss, H., Grimm, D., and Limpach, P., Direct Georeferencing of UAVs, The Int. Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, 2011, vol. XXXVIII-1/C22, pp. 131–136.
User’s Manual Agisoft PhotoScan: Professional Edition, v1.2.AgisoftLLC, 2016. http://www.agisoft.com/pdf/photoscan-pro_1_2_ru.pdf. Cited 20.03.2018.
PHANTOM 4 Operating Manual V1.2, DJI, 2016. https://dl.djicdn.com/downloads/phantom_4/en/Phantom_4_User_Manual_ru_v1.2.pdf. Cited 20.03.2018.
Ozhigin, S.G., Nizametdinov, F.K, and Ozhigina, S.B., Marksheiderskoe obespechenie ustoichivosti pribortovykh massivov. Sistema monitoringa sostoyaniya ustoichivosti kar’ernykh otkosov (Surveying Providing Stability Conditions for Ajasent Rock Mass. Monitoring System of Open Pit Slope Stability), Saarbrücken: LAP LAMBERT Academic Publishing, 2015.
Nizametdinov, F.K., Ozhigin, S.G., Ozhigina, S.B., Dolgonosov, V.N., Radej, K., and Stan’kova, G., Monitoring sostoyaniya otkosov ustupov i bortov kar’erov (Monitoring of Pitwall Slopes), Zdiby: Research Institute of Geodesy, Topography and Cartography, 2015.
Teeuw, R., Whiteside, M., McWilliam, N., and Zukowskyj, P., Field Techniques: GIS, GPS and Remote Sensing, London: Geography Outdoors Royal Geographical Society (with IBG), 2005.
Author information
Authors and Affiliations
Corresponding author
Additional information
Original Russian Text © D.V. Dorokhov, F.K. Nizametdinov, S.G. Ozhigin, S.B. Ozhigina, 2018, published in Fiziko-Tekhnicheskie Problemy Razrabotki Poleznykh Iskopaemykh, 2018, No. 5, pp. 191–200.
Rights and permissions
About this article
Cite this article
Dorokhov, D.V., Nizametdinov, F.K., Ozhigin, S.G. et al. A Technique for Surveying of Ground Surface Deformations in Mine Field. J Min Sci 54, 874–882 (2018). https://doi.org/10.1134/S1062739118055011
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1062739118055011