[4] [4] ZHOU K Y, ZHANG Q S, LIU Y D, et al. Internet-of-things-based four-dimensional high-density electrical instrument for geophysical prospecting［J］. Geoscientific Instrumentation, Methods and Data Systems, 2021, 10(2): 141-151.

[6] [6] WANG J A, CHEN F, YAO W H, et al. Application of information technology in geological exploration［J］. IOP Conference Series: Earth and Environmental Science, 2021, 804(2): 022049.

[7] [7] TCHOKPON K G, KAKI C, KOUROUMA M, et al. Detection of gold-bearing quartz veins in the meta-sedimentary formation in the North-Eastern Guinea using remote sensing and geophysical exploration［J］. Journal of African Earth Sciences, 2020, 168: 103869.

[13] [13] YAN B, SHI H P, WANG P, et al.Optoelectric characteristics of laser remote sensing for measurement of ground vibration［J］. Journal of Applied Remote Sensing, 2021, 15(1): 014505.

[14] [14] GU H, ZHAO Z Y, ZHANG Z G, et al. High-precision wavefront reconstruction from Shack-Hartmann wavefront sensor data by a deep convolutional neural network［J］. MeasurementScience and Technology, 2021, 32(8): 085101.

[16] [16] RODDIER F J. Variations on ahartmann theme［J］. Optical Engineering, 1990, 29(10): 1239-1242.

[17] [17] PRIMOT J. Theoretical description of Shack-Hartmann wave-front sensor［J］. Optics Communications, 2003, 222(1/2/3/4/5/6): 81-92.

[18] [18] XIONG C, ZHANG B W, ZHANG L, et al. Study on the location method based on seismic wave detection［J］. Applied Mechanics and Materials, 2012, 229/230/231: 2038-2041.