Advanced search
Publication Cover
Geocarto International Volume 38, 2023 - Issue 1
Submit an article Journal homepage
932
Views
4
CrossRef citations to date
0
Altmetric
Research Article

Monitoring the subsidence at different periods in high underground water level coal mine areas using differential interferometric synthetic aperture radar (D-InSAR)

Xuzi Jianga National Engineering Laboratory for Efficient Utilization of Soil and Fertilizer Resources, College of Resources and Environment, Shandong Agricultural University, Taian, ChinaView further author information
,
Xiangyu Mina National Engineering Laboratory for Efficient Utilization of Soil and Fertilizer Resources, College of Resources and Environment, Shandong Agricultural University, Taian, ChinaView further author information
,
Tiantian Yea National Engineering Laboratory for Efficient Utilization of Soil and Fertilizer Resources, College of Resources and Environment, Shandong Agricultural University, Taian, ChinaView further author information
,
Xinju Lia National Engineering Laboratory for Efficient Utilization of Soil and Fertilizer Resources, College of Resources and Environment, Shandong Agricultural University, Taian, ChinaCorrespondence[email protected]
View further author information
&
Xiao Hub College of Information Science and Engineering, Shandong Agricultural University, Taian, ChinaCorrespondence[email protected]
View further author information
Article: 2215730 | Received 17 Nov 2022, Accepted 15 May 2023, Published online: 24 May 2023

References

  • Bateson L, Cigna F, Boon D, Sowter A. 2015. The application of the Intermittent SBAS (ISBAS) InSAR method to the South Wales Coalfield, UK. Int. J Appl Earth Obs. 34:249–257.
  • Benjamin P, Marc M, Philippe P, Pierrick H, Joao BD. 2016. Development and validation of a new efficient SRTM DEM-based horizon model combined with optimization and error prediction methods. Sol Energy. 129:101–115.
  • Chen Y, Tao QX, Hou AY, Ding LJ, Liu GL, Wang K. 2020. Accuracy verification and evaluation of Sentinel-1A repeat track differential interferometric synthetic aperture radar in monitoring mining subsidence. J Appl Rem Sens. 14(01):1.
  • Chen Y, Yu SW, Tao QX, Liu GL, Wang LY, Wang FY. 2021. Accuracy verification and correction of D-InSAR and SBAS-InSAR in monitoring mining surface subsidence. Remote Sens. 13(21):4365.
  • Diao X, Sun Q, Yang J, Wu K, Lu X. 2022. A novel deformation extraction approach for sub-band insar and its application in large-scale surface mining subsidence monitoring. Sustainability. 15(1):354.
  • Du Z, Ge LL, Li X, Ng AHM. 2016. Subsidence monitoring over the Southern Coalfield, Australia using both L-Band and C-Band SAR time series analysis. Remote Sens. 8(7):543.
  • Du S, Wang Y, Zheng M, Zhou D, Xia Y. 2019. Goaf locating based on InSAR and probability integration method. Remote Sens. 11(7):812.
  • Fan H, Lian X, Yang W, Ge L, Hu H, Du Z. 2021. Mining large-gradient subsidence monitoring using D-InSAR optimized by GNSS. Imaging Sci J. 69(1-4):207–218.
  • Gao YB, Liu DQ, Zhang XY, He M. 2017. Analysis and optimization of entry stability in underground longwall mining. Sustainability. 9(11):2079.
  • Hou Z, Yang K, Li Y, Gao W, Wang S, Ding XM, Li YX. 2022. Dynamic prediction model of mining subsidence combined with D-InSAR technical parameter inversion. Environ Earth Sci. 81(11):307.
  • Ilieva M, Polanin P, Borkowski A, Gruchlik P, Smolak K, Kowalski A, Rohm W. 2019. Mining deformation life cycle in the light of InSAR and deformation models. Remote Sens. 11(7):745.
  • Ishwar SG, Kumar D, Kumar KM. 2017. Mine surface subsidence monitoring due to impacts of underground mining using persistent scatterer interferometry. Imaging Sci J. 65(3):151–161.
  • Jessica MW. 2020. Application of DInSAR for short period monitoring of initial subsidence due to longwall mining in the mountain west United States. Int J Min Sci Technol. 30(1):33–37.
  • Jiang TC. 2011. Ameliorative minimum cost flow algorithm for phase unwrapping. Procedia Environ Sci. 10:2560–2566.
  • Jiang M, Li ZW, Ding XL, Zhu JJ, Feng GC. 2011. Modeling minimum and maximum detectable deformation gradients of interferometric SAR measurements. Int J Appl Earth Obs. 13(5):766–777.
  • Krawczyk A, Grzybek R. 2018. An evaluation of processing InSAR Sentinel-1A/B data for correlation of mining subsidence with mining induced tremors in the Upper Silesian Coal Basin Poland. E3S Web Conf. 26:00003.
  • Li TT, Zhang HZ, Fan HD, Zheng CL, Liu JL. 2021. Position inversion of goafs in deep coal seams based on DS-InSAR data and the probability integral methods. Remote Sens. 13(15):2898.
  • Lu L, Fan H, Liu J, Liu JL, Yin JF. 2019. Time series mining subsidence monitoring with temporarily coherent points interferometry synthetic aperture radar: a case study in Peixian, China. Environ Earth Sci. 78(15):461.
  • Ma C, Cheng XG, Yang YL, Zhang XK, Guo ZZ, Zou YF. 2016. Investigation on mining subsidence based on multi-temporal InSAR and time-series analysis of the small baseline subset—case study of working faces 22201-1/2 in Bu’ertai mine, Shendong Coalfield, China. Remote Sens. 8(11):951.
  • Malinowska AA, Witkowski TT, Guz A, Hejmanowski R. 2018. Mapping ground movements caused by mining-induced earthquakes using sentinel-1 TOPS Time Series Interferometry. Eng. Geol. 246:402–411.
  • Ma F, Sui LC. 2020. Investigation on mining subsidence based on Sentinel-1A data by SBAS-InSAR technology—case study of Ningdong Coalfield, China. Earth Sci Res J. 24(3):373–386.
  • Ng AHM, Ge LL, Du Z, Wang SR, Ma C. 2017. Satellite radar interferometry for monitoring subsidence induced by longwall mining activity using Radarsat-2, Sentinel-1 and ALOS-2 data. Int J Appl Earth Obs. 61:92–103.
  • Pawluszek-Filipiak K, Borkowski A. 2020. Integration of DInSAR and SBAS techniques to determine mining-related deformations using sentinel-1 data: the case study of Rydułtowy mine in Poland. Remote Sens. 12(2):242.
  • Pepe A, Calo F. 2017. A review of interferometric synthetic aperture RADAR (InSAR) multi-track approaches for the retrieval of earth’s surface displacements. Appl Sci. 7(12):1264.
  • Przyłucka M, Herrera G, Graniczny M, Colombo D, Bejar-Pizarro M. 2015. Combination of conventional and advanced DInSAR to monitor very fast mining subsidence with TerraSAR-X Data: Bytom City (Poland). Remote Sens. 7(5):5300–5328.
  • Psimoulis PA, Houlié N, Habboub M, Michel C, Rothacher M. 2018. Detection of ground motions using high-rate GPS time-series. Geophys J Int. 214(2):1237–1251.
  • Tao QX, Wang FY, Guo ZJ, Hu L, Chen Y, Liu TW. 2021. Accuracy verification and evaluation of small baseline subset (SBAS) interferometric synthetic aperture radar (InSAR) for monitoring mining subsidence. Eur J Remote Sens. 54(1):642–663.
  • Wang SF, Li XB, Wang SY. 2017. Separation and fracturing in overlying strata disturbed by longwall mining in a mineral deposit seam. Eng. Geol. 226:257–266.
  • Wang L, Teng CQ, Jiang K, Jiang C, Zhu SJ. 2022. D-InSAR monitoring method of mining subsidence based on Boltzmann and its application in building mining damage assessment. KSCE J Civ Eng. 26(1):353–370.
  • Wang ZY, Zhang JZ, Yu YR, Liu J, Liu W, Jiang N, Guo D. 2021. Monitoring, analyzing, and modeling for single subsidence basin in coal mining areas based on SAR interferometry with L-band data. Sci Program. 2021:1–10.
  • Xia Y, Wang Y, Du S, Liu X, Zhou H. 2018. Integration of D-InSAR and GIS technology for identifying illegal underground mining in Yangquan district, Shanxi province, China. Environ Earth Sci. 77(8):15–19.
  • Yang XL, Wen GC, Dai LC, Sun HT, Li XL. 2019. Ground subsidence and surface cracks evolution from shallow-buried close-distance multi-seam mining: a case study in Bulianta coal mine. Rock Mech Rock Eng. 52(8):2835–2852.
  • Yang CS, Zhang Q, Zhao CY, Ji LY, Zhu W. 2010. Monitoring mine collapse by D-InSAR. Int J Min Sci Techno. 20(5):696–700.
  • Zhang A, Lu J, Kim JW. 2018. Detecting mining-induced ground deformation and associated hazards using spaceborne InSAR techniques. Geomat Nat Haz Risk. 9(1):211–223.
  • Zhu JJ, Yang ZF, Li ZW. 2019. Recent progress in retrieving and predicting mining-induced 3D displace-ments using InSAR. Acta Geod Geophys. 48:135–144.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.