Archives
 
Year 2022
 
Issue 1 [02 - 2022], Year XXXI

Assessment of the application of unmanned aerial vehicle for monitoring and stability assessment of waste dump

https://mij.hoimovietnam.vn/en/archives?article=220113

  • Affiliations:

    1 Công ty Cổ phần đồng Tả Phời – Vinacomin
    2 Sở Công Thương Quảng Ninh

  • *Corresponding:
    This email address is being protected from spambots. You need JavaScript enabled to view it.
  • Received: 21st-Nov-2021
  • Revised: 15th-Dec-2021
  • Accepted: 10th-Jan-2022
  • Online: 28th-Feb-2022
Pages: 85 - 91
Views: 86
View onlineView online
Downloads: 0
Downdload PDF
Rating: , Total rating: 0
Yours rating

Abstract:

This paper presents some results in terms of the Unmanned Aerial Vehicle (UAV) applications for measuring and evaluating the stability of dump sites in open-pit mines. Accordingly, UAV has been applied to establish the three-dimension map of dump sites. The methodology as well as the image analyses, processing were also introduced in this work. Besides, the application of UAV in measuring the subsidence of dump sites was also proposed in comprehensively. Rock fragment sizes and their distribution were also taken into account as the significant factors that can affect the instability of dump sites. Therefore, they have also been mentioned and discovered in this paper using the UAV technology and image analysis based on the Split-Desktop software. These technologies allow engineers and researchers accurately analyze and calculate the components, size, and distribution of rocks in dump sites. Finally, reasonable dumping solutions for long-term stabilization of dump sites/landfills in open-pit mines can be proposed

How to Cite
Nguyen, T.Tam and Pham, T.Duy 2022. Assessment of the application of unmanned aerial vehicle for monitoring and stability assessment of waste dump (in Vietnamese). Mining Industry Journal. XXXI, 1 (Feb, 2022), 85-91. .
References

1. Indresh Rathore, N.P. Kumar (2015), Unlocking the potentiality of UAVs in Mining Industry and itsImplications, in: International Journal of Innovative Research in Science, Engineering and Technology,pp. 852-855.

2. T. McLeod, C. et al.(2013), Using Video Acquired from an Unmanned Aerial Vehicle (UAV) to MeasureFracture Orientation in an Open-Pit Mine, GEOMATICA, 67 173-180.

3. C. Cryderman, et al.(2014), Evaluation of UAV Photogrammetric Accuracy for Mapping and EarthworksComputations, GEOMATICA, 68 ,309-317.

4. Lee Sungjae, C. Yosoon (2015), Topographic survey at small-scale open-pit mines using a popularrotary-wing unmanned aerial vehicle (drone), Tunnel & Underground Space, 25

5. S. Lee, Y. Choi (2015), On-site demonstration of topographic surveying techniques at open-pit minesusing a fixed-wing unmanned aerial vehicle (drone), Tunnel and Underground Space, 25, 527-533.

6. J. Suh, Y. Choi (2017), Mapping hazardous mining-induced sinkhole subsidence using unmannedaerial vehicle (drone) photogrammetry, Environmental Earth Sciences, 76 ,144.

7. D. Wierzbicki, M. Nienaltowski (2019), Accuracy Analysis of a 3D Model of Excavation, Created fromImages Acquired with an Action Camera from Low Altitudes, ISPRS International Journal of Geo-Information, 8 83.

8. Võ Chí Mỹ, Robert Duda (2014), Nghiên cứu khả năng ứng dụng máy bay không người lái (UAV) trongcông tác trắc địa mỏ và giám sát môi trường mỏ, Tuyển tập báo cáo Hội nghị Khoa học-Công nghệmỏ toàn quốc, Vũng Tàu.

9. Dieu Tien Bui, et al. (2019), Lightweight Unmanned Aerial Vehicle and Structure-from-MotionPhotogrammetry for Generating Digital Surface Model for Open-Pit Coal Mine Area and Its AccuracyAssessment, International Conference on Geo-Spatial Technologies and Earth Resources, (2017) 17-33.

10. Nguyen Quoc Long, B.X. Nam, C.X. Cuong, L.V. Canh, An approach of mapping quarries in Vietnamusing low-cost Unmanned Aerial Vehicles, International Journal of Sustainable Development,

11(2):199-210.

11. Różański, Zenon, et al. (2021),The impact of precipitation on state of the slopes surface and thermalactivity of the mine waste dump – preliminary study,” Journal of Sustainable Mining: Vol. 20 : Iss. 1

12. G.C. Hunter et al. (2021), A review of image analysis techniques for measuring blast fragmentation,Mining Science and Technology, 11 (1990) 19-36.

13. M. Esmaeili et al. (2015), Application of PCA, SVR, and ANFIS for modeling of rock fragmentation,Arabian Journal of Geosciences, 8 (2015) 6881-6893.

14. F.I. Siddiqui (2009), Measurement of size distribution of blasted rock using digital image processing,Engineering Sciences, 20.

Other articles