[1]
S.M. Gandhi, and B.C. Sarkar, Essentials of Mineral Exploration and Evaluation, Amsterdam, 2016.
[4]
Suryantini and H. Wibowo, "Geologic Risks Assessment and Quantification in Geothermal Exploration Case Studies in Green Field and Developed Prospects", In: Proceedings World Geothermal Congress, Melbourne, Australia, 2015.
[5]
"Proceedings Editorial Board of 6th ICEEG, “Near-surface geophysics and urbanization”, In", Proceedings of the 6th International Conference on Environmental and Engineering Geophysics. Beijing,
China,, 2014.
[6]
"Proceedings Editorial Board of 7th ICEEG, “Resource detection
and environmental protection with applied geophysics”", In Proceedings of the 7th International Conference on Environmental and Engineering Geophysics, Beijing, China, 2016.
[7]
Z. Li, J. Xu, and G.Q. Xiao, "A prospecting test of EH4 in combination with induction electrical sounding of a Pb-Zn deposit in Yunnan", Yunnan Geol, vol. 35, no. 3, pp. 404-409, 2016.
[8]
J.M. Jiang, R. Li, H. Zhang, and R. Zheng, "An application of EH4 And IP intermediate gradient methods in one Lead-Zinc Ore in the southwest of Zhejiang Province", Comput. Techn. Geophys. Geochem. Explor., vol. 35, no. 3, pp. 302-306, 249, 2013.
[9]
K. Shao, "Application effect of CSAMT method in exploration of Dabaoshan crisis mine in Shaoguan, Guangdong", Chin. J. Eng. Geophys., vol. 14, no. 4, pp. 401-408, 2017.
[10]
G.H. Liang, X.W. Xu, Q.B. Xiao, X.P. Cai, K.Z. Qin, B.L. Zhang, J.Z. San, W.D. Hui, and X.M. Peng, "Application of magnetotelluric method to Cu-Ni Ore exploration: a case study of Tulargen Cu-Ni Deposit in Xinjiang", Miner. Depos., vol. 1, pp. 120-127, 2017.
[13]
Y.S. Cai, X.H. Li, and X.M. Yang, Refined processing method for measurement data of geophysical prospecting instantaneous change electromagnetic system.CN Patent CN 104502987 A 2015
[14]
H. Denli, B. Ridge, and A. Niranjan Subrahmanya, "Geophysical
inversion with Convolutional Neural Networks".U. S. Patent 2019/0064389A1 2019
[15]
G.Q. Xue, Q.Y. Di, and J. Cheng, "Review the forefront problem of resources and environmental geophysics", Diqiu Wulixue Jinzhan, vol. 32, no. 4, pp. 1838-1841, 2017.
[16]
H.Z. Mi, "Review of the progress of exploration geophysics technology", In Annual Academic Meeting of China Geological Society,Paris, France,, 2013.
[18]
N.N. Zhou, G.Q. Xue, H.S. Zhong, and D.Y. Hou, Grounded conductor source transient electromagnetic very-short offset detection method.CN Patent CN 107015286 B 2019
[19]
P. Zhou, S.L. Chen, and L.L. Zhu, "A review of underground geophysical prospecting methods for several metallic ores", Geol. Bulletin Chin., vol. 28, no. 1, pp. 224-231, 2009.
[20]
Q.Z. Yue, Natural electromagnetic radiation sounding multichannel detection method.CN Patent CN 101872026 B 2010
[21]
G.Q. Yuan, S.Q. Xiong, and Q.M. Meng, "Application research progress on several geophysical exploration methods", Acta Geol. Sin., vol. 85, pp. 1744-1805, 2011.
[22]
X.D. Chen, Y. Zhao, T.L. Lin, T. Yang, and Y.D. Dai, "The application of HTC SQUID Magnetometer to Lotem", Geophys. Geochem. Explor., vol. 36, pp. 65-68, 2012.
[23]
J. Seon-Ah, K. Kyoung-Yul, and R. Hee-Hwan, "A new geophysical exploration method based on electrical resistivity to detect underground utility lines and geological anomalies: Theory and field demonstrations", Geomech. Eng., vol. 18, pp. 527-534, 2019.
[24]
P. Lin, P. Guo, and F.S. Shi, "A Study of the Techniques for Large-depth and Multi-functional Electromagnetic Survey", Acta Geol. Sin., vol. 31, pp. 149-154, 2010.
[25]
P.R. Lin, C.J. Zheng, and F.S. Shi, "The Research of Integrated Electromagnetic Method System", Acta Geol. Sin., vol. 80, pp. 1539-1548, 2006.
[26]
H. Zhang, "Research on magnetic exploration inversion technology and its application", M.S. thesis,. Hebei Engineering University, Handan, China, 2011.
[27]
W.D. Zhang, "Application of magnetic prospecting in iron ore exploration", J. Changchun Inst. Eng., vol. 13, no. 3, pp. 64-66, 2012. [Natural Science]
[28]
F. Ouyang, L.W. Chen, J.G. Zhao, S.K. Dai, and B. Xiong, Exploration method and exploration system for three-dimensional strong magnet.CN Patent CN 109254327 A 2019
[29]
G.Q. Xue, D.Y. Hou, and Y. Qing, Magnetite gob physical geography judgment method and device.CN Patent CN 105510981 A 2016
[30]
A. Smiarowski, and J. Berringerrockwood P., “Miles, Systems and
Methods for Multiple Bandwidth Electromagnetic Geophysical Exploration”..U.S. Patent 2019-0187319 2019
[31]
M.C. Xu, J.H. Gao, L.X. Rong, M.T. Chai, Q.T. Lu, and D.N. Shi, "Combining Exploration Technique of the Ground Seismic Tomography and the High-Revolution Seismic Method", Geol. Prospecting, vol. 41, pp. 83-87, 2005.
[32]
M.C. Xu, J.H. Gao, and L.X. Rong, "Application prospects of seismic method as discussed from the experimental of the method for metal exploration", Geol. Chin., vol. 31, pp. 108-112, 2004.
[33]
M.C. Xu, Z.Y. Hu, and J.H. Gao, "Research of Seismic methods in Base-metal Ore Exploration", Proceedings of the 30th International Geological Congress, Utrecht, The Netherlands, 1997.
[35]
M.H. Zhang, X. Feng, and C. Liu, "Present status and future development of the joint inversion of electromagnetic and seismic", Diqiu Wulixue Jinzhan, vol. 06, pp. 123-130, 2016.
[36]
M. Qi, B.L. Zhang, C. Fu, G.H. Liang, X.L. Shen, Y.S. Xu, J. Su, and Z.H. Guo, "Fast Discovery of Concealed Cu-W Polymetallic Deposit in Central Inner Mongolia by Applying Comprehensive Exploration Methods", Geol. Prospecting, vol. 45, no. 6, pp. 676-682, 2009.
[37]
L. Cao, M.X. Guo, S. Cheng, Y. Guo, B.C. Zhang, X. Wang, and Y. Xiu, "An application of methods of synthetic geophysics reconnaissance in prospecting a Pb-Zn Ore in Neimenggu", Jilin Geol., vol. 29, no. 2, pp. 94-97, 2010.
[38]
J.T. Liu, H.M. Gu, Z. Wang, J. Jiang, and W. Yang, "Application of Geophysical exploration in pyrite prospecting", Geol. Prospecting, vol. 4, pp. 55-59, 2008.
[39]
J.G. Zhang, X.Y. Xia, H.S. Wang, and L. Zhang, "Application of integrated geophysical method in the periphery exploration of Fankou Lead-Zinc mine", Geotech. Eng. World, vol. 2, no. 5, pp. 600-604, 2011.
[40]
L.X. Pan, and G.Q. Zhou, More exploration geophysical field signal intelligent acquisition devices, .CN Patent CN 208752223U 2019
[41]
Z.Q. Cui, Z.L. Xu, and Q.M. Meng, "The features and the development trend of the main airborne geophysical flying-platforms in China", Geophys. Geochem. Explor., vol. 38, no. 6, pp. 1107-1113, 2014.
[42]
J.L. Wang, R.K. Xie, R. Liang, Y.B. Song, Z.Q. Liu, J. Li, and X.P. Shan, "Aircraft type selection for airborne geophysical exploration in super-high plateau and flight performance analysis", Geophys. Geochem. Explor., vol. 41, no. 3, pp. 556-559, 2017.
[43]
M.Q. Wang, and R. Ye, "Applied geochemistry for future resource exploration-summary of the 28th IAGS conference", Geophys. Geochem. Explor., vol. 43, pp. 679-691, 2019.
[45]
T.B. Zhang, G.H. Yi, and K.H. Zhong, Method for correcting zone geochemical data.CN Patent, CN 109273059 A 2019.
[46]
Z.X. He, X.D. Suo, and W.B. Sun, Method for geochemical grandient exploration.U.S. 2013/0325125 AL 2013
[47]
Z.Z. Jiao, Regional geochemical survey sample analysis and abnormal point sampling inspection method.CN Patent 103869053 B 2015.
[48]
X.J. Xie, D.W. Liu, Y.C. Xiang, and G.S. Yan, "Gechemical Biocks——Development of concept and methodology", Geol. Chin., vol. 03, pp. 225-233, 2002.
[50]
J.F. Shi, and Y.C. Xiang, "The Scale Invariance of Geochemical Anomalies and Wide-Spaced Geochemical Mapping", Geol. Prospecting, vol. 01, pp. 67-69, 73, 2000.
[51]
Z.Q. Feng, D.Z. Dong, J.Q. Tian, W. Wu, Y.W. Cai, Z.S. Shi, and W.L. Peng, "Geochemical characteristics of Lower Silurian shale gas in the Changning-Zhaotong exploration blocks, southern periphery of the Sichuan Basin", J. Petrol. Sci. Eng., 2018.
[52]
X.J. Xie, "Global geochemical mapping", Geo. Chin., vol. 1, pp. 1-9, 2003.
[53]
J.R. Tang, C.B. Wu, and J.F. Shi, "Recent progress in the study of the deep- penetrating geochemical migration mechanisms and methods", Geol. Bulletin Chin., vol. 26, pp. 1579-1590, 2007.
[55]
X.Q. Wang, "Conceptual model of deep-penetrating geochemical migration", Geol. Bulletin Chin., vol. 24, pp. 92-896, 2004.
[56]
G.J.S. Govett, "Differential secondary dispersion in transported soils and post-mineralization rocks: an electrochemical interpretation", In: Proceedings of the International Geochemical Exploration Symposium, Geochemical Exploration, London, UK, 1973.
[57]
X.J. Xie, and X.Q. Wang, "Recent Developments on Deep-Penetrating Geochemistry", Earth Sci. Front, vol. 85, pp. 225-238, 2003.
[58]
K.E. Washburn, Combined Vibrational Spectroscopy and Laser Induced Breakdown Spectroscopy for Improved Mineralogical and Geochemical Characterization of Petroleum Source or Reservoir Rocks..U.S. Patent 2019-0025198 A1 2019
[59]
S.H. Zhou, Y.F. Yan, and Y.J. Li, "Application and Efficiency of Geophysical and Geochemical Exploration Methods in Present Ore Prospecting", Geol. Prospecting, vol. 9, pp. 58-62, 2007.
[60]
J.Y. Liu, W.P. Zhang, Z.H. Zhao, S.G. Lin, L.L. Hou, H.F. Wang, and J. Zhang, "Application of geophysical and chemical comprehensive method in the prediction and localization of concealed ore bodies in a certain area of northern Hebei province", In: Miner, Explor., vol. 15. 2014, pp. 773-779.
[61]
F.W. Gan, and J.B. Wang, "Rapid exploration of VMS copper polymetallic deposits in northern Ethiopia", Miner. Explor., vol. 9, no. 08, pp. 1611-1621, 2018.
[62]
S.L. Peng, Y.J. Shao, and J.D. Zhang, "theory and method of ore prospecting and prediction for concealed metal mines", Geol. Bulletin Chin., vol. 04, pp. 538-543, 2011.
[63]
J.F. Shi, P. Zhou, J.R. Tang, Q.H. Jin, L. Zhu, and Y.H. Jiang, "Thinking on the development strategy of key technologies for deep prospecting of metal deposits", In: Geol. Bulletin Chin., no. Z1, pp. 198-207. 2009.28
[64]
Q. Yang, F.Y. Sun, and S.J. Li, Magma type copper-nickel ore exploration method.CN patent CN 107589472 A 2019.
[65]
D. Ke, L. Song, and G.D. Wu, Geophysical and geochemical prospecting comprehensive method for recognizing hidden volcanite-type uranium mineralization information.CN Patent CN
104615843 A 2017
[66]
R.S. Wang, S.Q. Xiong, and H.F. Nie, "Remote Sensing Technology and its Application in Geological Exploration", Acta Geol. Sin., vol. 85, pp. 1699-1743, 2011.
[67]
R.H. Yang, and X.Z. Yu, "The Mineral-Prospecting Perspectine Of Remote Sensing Five Features Model In The Three-River Area of East Tibet", Geosci., vol. 18, pp. 544-548, 2004.
[68]
S.X. Yan, X.B. Wu, and C.X. Zhou, "Remote Sensing and Spectral Geology and Their Applications to Mineral Exploration", Adv. Earth Sci., vol. 26, pp. 13-29, 2011.
[69]
C. Sabine, "Remote sensing strategies for mineral exploration in", In: Remote Sensing for the Earth Sciences-manual of Remote Sensing, vol. 3. New York: John Wiley and Sons and American Society for
Photogrammetry and Remote Sensing (AS-PRS), 1999, pp. 375-447.3rded.
[70]
A.P. Crosta, and C. Roberto, "Mineral exploration withlands at Thematic Mapper(TM)/Enhanced Thematic Mapper plus(ETM +):A review of the foundations, characteristics, data processing, and case studies", Rev. Econ. Geol., vol. 16, pp. 59-82, 2009.
[71]
A.P. Crosta, and J.M. Moore, "Enhancement of Landsat Thematic Mapper imagery for residual soil mapping in SW Minas gerais state, Brazil: A prospecting case history in Greenstone belt terrain", In: Proceedings, ERIM, Calgary, Canada, 1989, pp. 173-187.
[72]
W.P. Loughlin, "Geological exploration in western United states by
use of airborn scanner imagery", In: Remote Sensing: An Operational
Technology for the Mining and Petroleum Industries. London, Institute of Mining and Metallurgy., 1990, pp. 223-241.
[73]
W.P. Loughlin, "Principal components analysis for alteration mapping", Photogramm. Eng. Remote Sensing, vol. 57, pp. 163-170, 1991.
[74]
D.C. Jia, H.Y. Mu, Q.G. Jiang, Y.H. Li, and C.B. Yang, "Classification of dominant mineral mineralization belt in Bolivia and prospecting prediction based on remote sensing geological interpretation", Geol. Bulletin Chin., vol. 12, pp. 2322-2331, 2017.
[75]
C.J. Li, H.C. Duan, and H.F. Duan, "Remote sensing image characteristics of the middle section of the tectonic magmatic belt in shanghuangqi, northern hebei province and prospect of molybdenum polymetallic ore exploration", Miner. Explor., vol. 3, no. 05, pp. 682-687, 2012.
[76]
R.C. Jiao, Y.P. Qin, S.Y. Zhang, and R.R. Wang, "Preliminary exploration on remote sensing lithology enhancement method of worldview-2 data in sedimentary rock area -- a case study in kashiaertashi of Xinjiang", Northwest Geol., vol. 47, no. 04, pp. 277-283, 2014.
[77]
Q.J. Wang, Q.Z. Lin, M.X. Li, L.M. Wang, and Q.J. Tian, "A multi-spectral remote sensing information extraction method for highlighting targets", Guangpuxue Yu Guangpu Fenxi, vol. 29, no. 04, pp. 1018-1022, 2009.
[78]
Q.J. Wang, Y.M. Wei, Y. Chen, Q.Z. Lin, and H.Y. Zhou, "Remote sensing prospecting model for porphyry copper deposits in low vegetation covered areas and its application -- a case study of the ring barkhe-west junggar metallogenic belt", Acta Geol. Sin., vol. 91, no. 02, pp. 400-410, 2017.
[79]
Y.Y. Zheng, S. Wu, and H. Ren, A method of mineralizing centre is drawn a circle to approve based on short-wave infrared spectrum.CN Patent CN 110333200 A 2019
[81]
R.S. Wang, S.M. Yang, and B. Yan, "A Review of Mineral Spectral Dentification Methods and Models with Imaging Spcctrometer", Remote Sensing Land Resources, vol. 1, pp. 1-9, 2007.
[82]
P.K. Tang, Y.L. Li, G.B. Li, and B.K. Yan, "A Review of Imaging Spectral Mineral Identification Methods and Models", Miner. Resources Geol., vol. 2, pp. 60-165, 2006.
[83]
P.K. Tang, "Study on Uncertainty about Identification of similar minerals and mineral mapping of Imaging Spectrometry", PhD thesis, University of Geology, Beijing, China, 2006.
[84]
P.K. Tang, R.S. Wang, and S.M. Yang, "Preliminary Study on Uncertainty of the Influential Factors about Target Recognition of Imaging Spectrometry through Introducing Minerals Identification", Geol. Prospecting, vol. 2, pp. 74-78, 2006.
[85]
R.N. Clark, T.M. Hoefen, and G.A. Swayze, ", Assessment Tool for the Detection of Amphiboles from the Libby, Montana Region, 2003.Open-File Report 03-128", U. S. Geological Survey, .
[86]
C.M. Zhang, T.K. Mu, and T.Y. Yan, "Development and prospect of hyperspectral remote sensing technology", Spacecraft Recovery & Remote Sensing, vol. 39, pp. 108-118, 2018.
[87]
M.Z. Wang, Study on some key problems of hyperspectral remote sensing image processing and geological application., Chengdu University of Technology, 2014.
[88]
G. Johnsen, Underwater hyperspectral imaging.US Patent US 8767205 B2, 2014.
[89]
Q.Q. Guo, Z.J. Li, W.Y. Li, and R.D. Zhao, "Application of data from the Resource-1 satellite 04 in remote sensing geological interpretation of geological and mineral survey in Xizang area", Dizhi Lunping, vol. 63, no. S1, pp. 147-148, 2017.
[90]
X. Wang, H.P. Wang, R. Wang, Z.J. Wu, F.L. Gao, N. Kang, F.L. Wan, Y.L. Wang, H. Yang, and J. Liu, "Geological interpretation of remote sensing images based on GF2 and Landsat8 data fusion -- a case study of 1:50000 Wafangdian city", Geol. evaluat., vol. 65, no. 4, pp. 918-928, 2019.
[91]
K. Zhang, S.B. Ma, Z.R. Li, and S.Y. Liu, "Remote sensing geological interpretation of gaofen-1 satellite data", Remote sensing information, vol. 31, no. 01, pp. 115-123, 2016.
[92]
R.J. Wang, B.K. Yan, M.S. Li, S.F. Dong, Y.B. Sun, and B. Wang, "Remote sensing interpretation and application of gf-1 data of important ore-controlling geological units in hongshan area, gansu province", Remote sensing of land and resources, vol. 30, no. 02, pp. 162-170, 2018.
[93]
W. Zhang, M. Jin, S.P. Zhang, L. Chen, C. Zhong, and L. Dong, "Application of high-resolution remote sensing satellite data in prospecting and prediction of east kunlun metallogenic belt [J]", Remote sensing of land and resources, vol. 28, no. 02, pp. 112-119, 2016.
[94]
X.X. Liu, D.H. Wang, F. Huang, and Z. Zhao, Method and device for prospecting ion-adsorbing type rare earth ore based on remote sensing technology.CN Patent CN 109143401 A, 2019.
[95]
J.T. Qiu, and J.Y. Song, Method of searching for potential ultra-large sandstone uranium deposit based on remote sensing image.CN Patent CN 109596536 A, 2019.
[96]
D.D. Liu, Oil gas exploration method based on hyperspectral remote sensing and electromagnetic exploration.CN Patent CN 103728672 A, 2014.
[97]
S.P. Li, T. Pan, and J. Chen, Cenozoic magmatic copper polymetallic ore prospecting method.. CN Patent CN 108761564 A
[98]
N.N. Zhou, G.Q. Xue, and H.S. Zhong, Exploration improvement method in mineral mining process.CN Patent CN 106680892 A
[99]
F.D. Zhang, J. Li, and Y.Q. She, A method and apparatus for determining an investment decision result of an exploration and development project.CN Patent CN 109034525 A, 2018