Remote Sensing (Oct 2024)

Study on the Identification Method of Planar Geological Structures in Coal Mines Using Ground-Penetrating Radar

  • Jialin Liu,
  • Xiaosong Tang,
  • Feng Yang,
  • Xu Qiao,
  • Fanruo Li,
  • Suping Peng,
  • Xinxin Huang,
  • Yuanjin Fang,
  • Maoxuan Xu

DOI
https://doi.org/10.3390/rs16213990
Journal volume & issue
Vol. 16, no. 21
p. 3990

Abstract

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The underground detection environment in coal mines is complex, with numerous interference sources. Traditional ground-penetrating radar (GPR) methods suffer from limited detection range, high noise levels, and weak deep signals, making it extremely difficult to accurately identify geological structures without stable feature feedback. During research, it was found that the detection energy of the same target significantly changes with the antenna direction. Based on this phenomenon, this paper proposes a geological radar advanced detection method using spatial scanning. This method overcomes constraints imposed by the underground coal mine environment on detection equipment, enhancing both detection range and accuracy compared to traditional approaches. Experiments using this method revealed pea-shaped response characteristics of planar geological structures in radar images, and the mechanisms behind their formation were analyzed. Additionally, this paper studied the changes in response characteristics under changes in target inclination, providing a basis for understanding the spatial distribution of geological structures. Finally, application experiments in underground coal mine environments explored the practical potential of this method. Results indicate that, compared to drilling data, this method achieves identification accuracies of 91.88%, 90.42%, and 78.72% for the depth and spatial extent of geological structures, providing effective technical support for coal mining operations.

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