|
|
| Details of the Faculty or Staff |
|
Name |
Xue Guoqiang |
Title |
Professor |
|
Highest Education |
Ph.D. |
Subject Categories |
Solid Earth Geophysics |
|
Phone |
010-82998193 |
Zip Code |
100029 |
|
Fax |
010-62010846 |
Email |
ppxueguoqiang@163.com |
|
Office |
No.19 Beitucheng West Road, Chaoyang District, Beijing, 100029, China |
|
|
| Education and Appointments: |
Dr. GuoQiang XUE
Education
1985. 7—1989. 7: Department of Geophysica, XiAn College of Geology (B.S.)
1999. 9---2002. 6: Graduate School, Chang An University (M.S.)
2002.6—2005. 5: Graduate School, Xi An jiao tong University (Beijing) (Ph. D.)
2005.-2008.1 : Institute of Geology and Geophysics,Chinese Academy of Sciences (CAS) (post docter)
Professional Positions
At Institute of Geology and Geophysics, CAS, since 2008
Current Position:
Vice Professor of Institute of Geology and Geophysics, Chinese Academy of Sciences (since 2007. 12)
1989.7—1999. 9: engineer of ShanXi coal geology exploration team |
| Research Interests: |
Current research interest is transient electromagnetic method (TEM) |
| Supported Projects: |
1. China post doctor Foundation of China, 2005. 1-2007. 12)
2. Wang Kuan cheng Foundation of post doctor , Academy of Sciences (2005. 10-2007. 12)
3. Knowledge Innovation Project of Chinese Academy of Science (KZCX2-YW-Q04-07). 2009. 1-2011. 12)
|
| Publications: |
| 2020 (21篇) |
| [125] |
Ma Z J, Di Q Y, Liang P F, Xue G Q. 2020. Analysis on equivalence effect of the grounded-wire transient electromagnetic method. J. Appl. Geophys. 2020, 181 |
| [124] |
Ma Z J, Di Q Y, Lei D, Gao Y, Zhu J, Xue G Q. 2020. The optimal survey area of the semi-airborne TEM method. Journal of Applied Geophysics 172 (2020) 103884 |
| [123] |
Linbo Zhang; Guoqiang Xue; Muhammad Younis Khane; Weiying Chenabc; Sixu Hand; Wen Chen;Exploration of a magnetite deposit buried under thick and conductive sediments with multiple-source CSEM. Journal of Applied Geophysics. 2020,180. |
| [122] |
Luan, X. D., Q. Y. Di, G. Q. Xue, and B. Chen, 2020, Ground-wire Source TEM 3D Full Time Multinary Inversion Using Adaptive Regulation: Journal of Environmental and Engineering Geophysics, 25, no. 3, 403-413. http://dx.doi.org/10.32389/jeeg19-037. |
| [121] |
Di QY, Xue GQ*(通讯作者), Yin CC, Li X. 2020. New methods of controlled-source electromagnetic detection in China. Science China: Earth Sciences, 63 (9): 1268-1277. 底青云,薛国强*(通讯作者),,殷长春,李貅. 2020. 中国人工源电磁探测新方法. 中国科学:地球科学,50(9):1219-1227. |
| [120] |
Xue GQ, Li ZY, Guo WB, Fan JS. 2020. The Exploration of Sedimentary Bauxite Deposits Using The Reflection Seismic Method: A Case Study from the Henan Province, China . Ore Geology Reviews, 127: 103832. |
| [119] |
Zhang LB, Li Hai, Xue GQ, et al. 2020. Magnetic viscosity effect on grounded-wire TEM responses and its physical mechanism. IEEE Access, 8: 6140-6152. |
| [118] |
Xue GQ, Li H*, He YM, et al. 2020. Development of the inversion method for transient electromagnetic data. IEEE Access, doi: 10.1109/ACCESS.2020.3013626 |
| [117] |
WuXin, Guoqiang Xue*(通讯作者),2020. Removal of the multi-source noise in Airborne Electromagnetic data based on Deep Learning geophysics Geophysics, 85 (6): B193- B208. |
| [116] |
NannanZhou , Guoqiang Xue,Induced Polarization Effect on Grounded-Wire Transient Electromagnetic Data from Transverse Electric and Magnetic Fields Geophysics, 2020, 85 (4): E111-E120 |
| [115] |
Qingyun Di,Hai Li,Guoqiang Xue,Linbo Zhang.Pseudo-2D Trans-dimensional Bayesian inversion of the full waveform TEM response from PRBS source,IEEE Transactions on Geoscience and Remote Sensing, doi: 10.1109/TGRS.2020.2982442 |
| [114] |
Qingyun Di,Guqiang Xue*(通讯作者),Qingdong Zeng, Zhongxing Wang,Zhiguo An , Da lei1, Magnetotelluric Exploration of Deep-Seated Gold Deposits in the Qingchengzi Orefield, Eastern Liaoning (China), using a SEP System OGR, 2020, 122. https://doi.org/10.1016/j.oregeorev.2020.103501 |
| [113] |
X. Wu, G. Xue (通讯作者) and Y. He, The Progress of the Helicopter-Borne Transient Electromagnetic Method and Technology in China,IEEE Access, vol. 8, 32757-32766, 2020. |
| [112] |
Zhenwei Guo,Guoqiang Xue*(通讯作者) Electromagnetic methods for mineral exploration in China: A review OGR,ttps://doi.org/10.1016/j.oregeorev.2020.103357 |
| [111] |
Qingyun Di,Guoqiang Xue* (通讯作者),Changmin Fu , Ruo Wang An alternative tool of CSAMT for prospecting deep-buried ore deposit Science Bulletin, 65(2020)611-615 |
| [110] |
Linbo Zhang; Hai Li; Guoqiang Xue; Wen Chen; Yiming He. Magnetic Viscosity Effect on Grounded-Wire TEM Responses and Its Physical Mechanism. IEEE Access. 2020, 8: 6140-6152 |
| [109] |
Muhammad Khan,Guoqiang Xue*(通讯作者) , Weiying Chen,2020 .Investigation of groundwater inrush zone using petrophysical logs and short-offset transient electromagnetic (SOTEM) data,JEEG 25(3)433-437 |
| [108] |
Zhenjun Ma,Qingyun Di,Da Li,Guo-qiang Xue,The optimal survey area of the semi-airborne TEM method,Journal of Applied Geophysics 172 (2020) 103884 |
| [107] |
Xue, G.Q.; Zhang, L.B.; Zhou, N.N.; Chen, W.Y. Developments measurements of TEM sounding in China. Geol J 2020 55:1636-1643, 10.1002/gj.3544, doi:10.1002/gj.3544. |
| [106] |
Xue, G.Q.; Zhang, L.B.; Hou, D.Y.; Liu, H.T.; Ding, Y.H.; Wang, C.Y.; Luo, X.N. Integrated geological and geophysical investigations for the discovery of deeply buried gold -polymetallic deposits in China. Geol J 2020 55:1771-1780, 10.1002/gj.3574, doi:10.1002/gj.3574. |
| [105] |
Di qing yun, G.Q Xue (通讯作者) ,Da Lei,Zhongxing, WangHai, LiFayemi Olalekan. Demonstration of the Newly Developed MTEM Systems for Gold Detection in China, GJ 2020,55:1763-1770. doi.org/10.1002/gj.3549 |
| |
| 2019年(23篇) |
| (104) |
Qingyun Di, Guoqiang Xue*(通讯作者), Changchun Yin, Xiu Li,Research and Applications of Controlled-source Electromagnetic Methods for Deep Earth Exploration during Last Decade china science,doi.10.1360/SSTe-2019-0162 |
| (103) |
Wen Chen,Guo-qiang Xue,Nan-nan Zhou,Hai Li,Delineating Ore-Forming Rock Using a Frequency Domain Controlled-Source Electromagnetic Method,[J]. Ore Geology Reviews, 2019, 115:103167. |
| (102) |
Xin Wu, Guangyou Fang , Guoqiang Xue(通讯作者), Lihua Liu , Leisong Liu , Jutao Li.The Development and Applications of the Helicopter-borne Transient Electromagnetic System CAS-HTEM JEEG, December 2019, Volume 24, Issue 4, pp. 653–663 |
| (101) |
Xin Wu,G.Q Xue(通讯作者),Shun Wang,Yongqiang Feng,Q.M zhang,G.Y fang. The Suppression of Powerline Noise for the time-domain electromagnetic method with coded source based on independent component analysis, Journal of Environmental and Engineering Geophysics (2019) 24 (4): 513–523. |
| (100) |
Xin Wu, G.Q Xue (通讯作者), G.Y fang,High resolution inversion of helicopter-borne TEM data for determine lead-zinc mineralized body , Bollettino di Geofisica Teorica e Applicata 2019,60(4) 629-644 |
| (99) |
J.J XUE, YF.Lu, G.Q Xue (通讯作者),Chen.W Joint Constrained Inversion of TEM data to Investigate Deeply-Buried Ore Deposit, Bollettino di Geofisica Teorica e Applicata 2019,60(4) 624-628 |
| (98) |
Junjie Xue Jiulong Chen G.Q Xue (通讯作者) Hai Li Dongyang Hou Hua-Sen Zhong Kangxin Lei Xiu L Extracting Pseudo Wave Fields from Transient Electromagnetic Fields Using a Weighting Coefficients Approach,JEEG 2019 24(3):351-359 |
| (97) |
Guo-qiang Xue,Wen Chen,Jiulong Cheng,A Review of Electrical and Electromagnetic Methods for Coal Mine Exploration in China,November 2019IEEE Access 177332 - 177341 |
| (96) |
Jianghao Chang, Guoqiang Xue(通讯作者), Reza Malekian A comparison of surface-to-coal mine roadway TEM and surface TEM responses to water-enriched bodies,2019 7 167320-167328 |
| (95) |
Qingyun Di,Guo-qiang Xue(通讯作者),Zhongxing Wang,Olalekan Fayemi,了Development of the emerging electromagnetic methods for deep earth exploration,Article, May 2019,Acta Geologica Sinica,2019, 93: 313-317 |
| (94) |
Wu, X.; Xue, G.Q. (通讯作者); Fang, G.Y.; Li, X.; Ji, Y.J. The Development and Applications of the Semi-Airborne Electromagnetic System in China. Ieee Access 2019, 7, 104956-104966, doi:10.1109/access.2019.2930961. |
| (93) |
Li, X.; Bai, D.H.; Ma, X.B.; Chen, Y.; Varentsov, I.M.; Xue, G.Q.; Xue, S.; Lozovsky, I. Electrical resistivity structure of the Xiaojiang strike-slip fault system (SW China) and its tectonic implications. Journal of Asian Earth Sciences 2019, 176, 57-67, doi:10.1016/j.jseaes.2019.01.031. |
| (92) |
Li H Xue G,He,Y Decoupling induced polarization effect from time domain electromagnetic data in Bayesian framework,geophysics 2019 84(6): A59-A63 |
| (91) |
Chang, J.H.; Yu, J.C.; Li, J.J.; Xue, G.Q.; Malekian, R.; Su, B.Y. Diffusion Law of Whole-Space Transient Electromagnetic Field Generated by the Underground Magnetic Source and Its Application. Ieee Access 2019, 7, 63415-63425, doi:10.1109/access.2019.2916767 |
| (90) |
Chen, W.Y.; Han, S.X.; Xue, G.Q. Analysis on the full-component response and detectability of electric source surface-to-borehole TEM method. Chinese J Geophys-Ch 2019, 62, 1969-1980, doi:10.6038/cjg2019L0708
陈卫营, 韩思旭, 薛国强,电性源地-井瞬变电磁法全分量响应特性与探测能力分析,地球物理学报,2019 Vol. 62(5):1969-1980 |
| (89) |
Ouyang, T.; Di, Q.Y.; Xue, G.Q.; Lei, D. Identifying deep ore bodies using the Multi-Channel Transient Electromagnetic Method (MTEM) : an example of a lead-zinc-silver mine in Inner Mongolia. Chinese J Geophys-Ch 2019, 62, 1981-1990, doi:10.6038/cjg2019N0071 欧阳涛; 底青云; 薛国强; 雷达; 利用多通道瞬变电磁法识别深部矿体 地球物理学报2019 Vol. 62 (5): 1981-1990 |
| (88) |
Kang Chen,J.Y zhang, Xue guoqiang (通讯作者), J.T hao, Y.Z yue , H huang , Weiying Chen,Feasibility of monitoring hydraulic connection between aquifers using time-lapse TEM - a case history in Inner Mongolia, China, JEEG , 09 2019, Volume 24, Issue 3, pp. 361–372 |
| (87) |
Chen, K.; Xue, G.Q. (通讯作者); Chen, W.Y.; Zhou, N.N.; Li, H. Fine and Quantitative Evaluations of the Water Volumes in an Aquifer Above the Coal Seam Roof, Based on TEM. Mine Water and the Environment 2019, 38, 49-59, doi:10.1007/s10230-018-00573-2. |
| (86) |
Li, H.; Di, Q.Y.; Xue, G.Q. A comparative study of inline and broadside time-domain controlled-source electromagnetic methods for mapping resistive targets on land. Geophysics 2019, 84, B235-B246, doi:10.1190/geo2018-0056.1 |
| (85) |
Di, Q.Y.; Zhu, R.X.; Xue, G.Q (通讯作者).; Yin, C.C.; Li, X. New development of the Electromagnetic (EM) methods for deep exploration. Chinese J Geophys-Ch 2019, 62, 2128-2138, doi:10.6038/cjg2019M0633.
底青云;朱日祥;薛国强 (通讯作者),殷长春;李貅 我国深地资源电磁探测新技术研究进展,地球物理学报,2019Vol. 62(6):2128-2138 |
| (84) |
Hou, D.Y.; Xue, G.Q.; Zhou, N.N.; Chen, W.; Xue, J.J. Exploration of Deep Magnetite Deposit Under Thick and Conductive Overburden with Ex Component of SOTEM: A Case Study in China. Pure and Applied Geophysics 2019, 176, 857-871, doi:10.1007/s00024-018-2005-8 |
| (83) |
Hou, D.Y.; Xue, G.Q. (通讯作者); Zhou, N.N.; He, Y.M.; Chen, W. Comparison between Different Apparent Resistivity Definitions of CSAMT. J Environ Eng Geoph 2019, 24, 119-127, doi:10.2113/jeeg24.1.119. |
| (82) |
Wu, X.; Xue, G.Q (通讯作者); Xiao, P.; Li, J.T.; Liu, L.H.; Fang, G.Y. The removal of the high-frequency motion-induced noise in helicopter-borne transient electromagnetic data based on wavelet neural network. Geophysics 2019, 84(1), K1-K9, doi:10.1190/geo2018-0120.1. |
| |
| 2018年(19篇) |
| (81) |
Zhou, N.N.; Xue, G.Q. Minimum depth of investigation for grounded-wire TEM due to self-transients. J Appl Geophys 2018, 152, 203-207, doi:10.1016/j.jappgeo.2018.04.004. |
| (80) |
Zhou, N.N.; Xue, G.Q.; Li, H.; Hou, D.Y. Investigation of Axial Electric Field Measurements with Grounded-Wire TEM Surveys. Pure and Applied Geophysics 2018, 175, 365-373, doi:10.1007/s00024-017-1655-2 |
| (79) |
Hou, D.Y.; Xue, G.Q.; Zhou, N.N.; Yan, S.; Di, Q.Y. A new infinitesimal computational approach to calculating frequency-domain electromagnetic response. J Appl Geophys 2018, 159, 312-318, doi:10.1016/j.jappgeo.2018.09.004. |
| (78) |
Zhou, N.N.; Hou, D.Y.; Xue, GQ. Effects of Shadow and Source Overprint on Grounded-Wire Transient Electromagnetic Response. IEEE Geosci. Remote Sens. Lett. 2018, 15, 1169-1173, doi:10.1109/lgrs.2018.2836152 |
| (77) |
Di, Q.Y.; Xue, G.Q. (通讯作者); Lei, D.; Wang, Z.X.; Zhang, Y.M.; Wang, S.; Zhang, Q.M. Geophysical survey over molybdenum mines using the newly developed MTEM system. J Appl Geophys 2018, 158, 65-70, doi:10.1016/j.jappgeo.2018.07.008. |
| (76) |
Xue, G.Q.; Chen, W.Y.; Yan, S. Research study on the short offset time-domain electromagnetic method for deep exploration. J Appl Geophys 2018, 155, 131-137, doi:10.1016/j.jappgeo.2018.05.019. |
| (75) |
Wang, R.; Wang, M.Y.; Di, Q.Y.; Xue, G.Q. 2D FEM modeling on the multi-channel transient electromagnetic method. Chinese J Geophys-Ch 2018, 61, 5084-5095, doi:10.6038/cjg2018L0672
王若;王妙月;底青云;薛国强,多通道瞬变电磁法2D有限元模拟,地球物理学报,2018 Vol. 61 (2): 5084-5095 |
| (74) |
Xue, G.Q.; Chen, W.Y.; Ma, Z.J.; Hou, D.Y. Identifying Deep Saturated Coal Bed Zones in China through the Use of Large Loop TEM. J Environ Eng Geoph 2018, 23, 135-142, doi:10.2113/jeeg23.1.135. |
| (73) |
Xue, G.Q.; Hou, D.Y.; Qiu, W.Z. Identification of Double-layered Water filled Zones Using TEM: A Case Study in China. J Environ Eng Geoph 2018, 23, 297-304, doi:10.2113/jeeg23.3.297.
journal of the Environmental and Engineering Geophysical |
| (72) |
Xue, G.Q. Introduction to the JEEG Special Issue of on Geophysics in China. J Environ Eng Geoph 2018, 23, V-vii, doi:10.2113/JEEG23.1.v. journal of the Environmental and Engineering Geophysical |
| (71) |
Xue, G.Q.; Chen, K.; Chen, W.Y.; Tian, Z.B. The Determination of the Burial Depth of Coal Measure Strata Using Electromagnetic Data. J Environ Eng Geoph 2018, 23, 125-134, |
| (70) |
Xue, G.Q. The Development of Near-source Electromagnetic Methods in China. J Environ Eng Geoph 2018, 23, 115-124, doi:10.2113/jeeg23.1.115.
journal of the Environmental and Engineering Geophysical |
| (69) |
Xue, G.Q.; Li, X.; Yu, S.B.; Chen, W.Y.; Ji, Y.J. The Application of Ground-airborne TEM Systems for Underground Cavity Detection in China. J Environ Eng Geoph 2018, 23, 103-113, doi:10.2113/jeeg23.1.103.journal of the Environmental and Engineering Geophysical |
| (68) |
Li, X.; Xue, G..Q. (通讯作者).; Zhi, Q.Q.; Lie, H.; Zhong, H.S. TEM Pseudo-Wave Field Extractions Using a Modified Algorithm. J Environ Eng Geoph 2018, 23, 33-45 |
| (67) |
Li, H.; Xue, G.Q.; Di, Q.Y. Numerical Analysis of Land-Based Inline-Source Configuration for the Controlled-Source Electromagnetic Method. J Environ Eng Geoph 2018, 23, 47-59, doi:10.2113/jeeg23.1.47journal of the Environmental and Engineering Geophysical |
| (66) |
Khan, M.Y.; Xue, G.Q. (通讯作者); Chen, W.Y.; Zhong, H.S. Analysis of Long-offset Transient Electromagnetic (LOTEM) Data in Time, Frequency, and Pseudo-seismic Domain. J Environ Eng Geoph 2018, 23, 15-32, doi:10.2113/jeeg23.1.15. |
| (65) |
Zhou, N.N.; Xue, G.Q.; Hou, D.Y.; Lu, Y.F. An Investigation of the Effect of Source Geometry on Grounded-Wire TEM Surveying with Horizontal Electric Field. J Environ Eng Geoph 2018, 23, 143-151, doi:10.2113/jeeg23.1.143 |
| (64) |
He, J.S.; Xue, G.Q. Review of the key techniques on short-offset electromagnetic detection. Chinese J Geophys-Ch 2018, 61, 1-8, doi:10.6038/cjg2018L0003.
何继善,薛国强(通讯作者) 2018 短偏移距电磁探测概述,地球物理学报, 61(1)1-8 |
| (63) |
Wang, H.Y.; Xue, G.Q.; Guo, H.; Zhou, N.N. Numerical analysis for direct response of the transient electromagnetic field in the time domain in a homogeneous half space. Chinese J Geophys-Ch 2018, 61, 750-755, doi:10.6038/cjg2018K0664.
王贺元, 薛国强*, 郭华 周楠楠, 2018. 均匀半空间瞬变电磁场直接时域响应数值分析. 地球物理学报, 61(2), pp.750-755. |
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| 2017年 (12篇) |
| (62) |
Li, H.; Xue, G.Q.; Zhao, P. A New Imaging Approach for Dipole-Dipole Time-Domain Electromagnetic Data Based on the q-Transform. Pure and Applied Geophysics 2017, 174, 3939-3953, doi:10.1007/s00024-017-1603-1 |
| (61) |
Xue, G.Q.; Chen, W.Y.; Cui, J.W.; Yan, S. A Fast Topographic Correction Method for TEM Data; 2017; 10.1007/978-981-10-3244-8_15pp. 119-126. |
| (60) |
Zhou, N.N.; Xue, G.Q.; Chen, W.Y.; Cui, J.W.; Chen, K. A comparison of TEM data from different near-source systems. J Geophys Eng 2017, 14, 487-501, doi:10.1088/1742-2140/aa5cde |
| (59) |
Chen, W.Y.; Xue, G.Q.; Khan, M.Y.; Li, H. Using SOTEM Method to Detect BIF Bodies Buried Under Very Thick and Conductive Quaternary Sediments, Huoqiu Deposit, China. Pure and Applied Geophysics 2017, 174, 1013-1023, doi:10.1007/s00024-016-1390-0 |
| (58) |
Chen, W.Y.; Khan, M.Y.; Xue, G.Q. Response of surface-to-borehole SOTEM method on 2D earth. J Geophys Eng 2017, 14, 987-997, doi:10.1088/1742-2140/aa6fcc. |
| (57) |
Zhou, N.N.; Xue, G.Q.; Hou, D.Y.; Li, H.; Chen, W.Y. Short-offset grounded-wire TEM method for efficient detection of mined-out areas in vegetation-covered mountainous coalfields. Explor Geophys 2017, 48, 374-382, doi:10.1071/eg15095 |
| (56) |
Chen, W.Y.; Xue, G.Q.; Olatayo, A.L.; Chen, K.; Khan, M.Y.; Chen, W.C.; Zhang, L.B.; Chen, W. A comparison of loop time-domain electromagnetic and short-offset transient electromagnetic methods for mapping water-enriched zones - A case history in Shaanxi, China. Geophysics 2017, 82, B201-B208, doi:10.1190/geo2017-0070.1 |
| (55) |
Liu, Z.X.; Xue, G.Q.; Zhang, L.B. Comparison and analysis on effective observation area of tensor CSAMT by numerical simulation method. Chinese J Geophys-Ch 2017, 60, 3278-3287, doi:10.6038/cjg20170832
刘志新,薛国强*(通讯作者),张林波. 张量CSAMT有效观测区域模拟对比分析.地球物理学报。2017 60(8):3278-3287 |
| (54) |
Wu, X.; Xue, G.Q.; Xiao, P.; Rao, L.T.; Guo, R.; Fang, G.Y. Noise reduction technology of TEM using optimization of instrument sampling function. Chinese J Geophys-Ch 2017, 60, 3677-3684, doi:10.6038/cjg20170931.
武欣,薛国强(通讯作者),肖攀,饶丽婷,郭睿,方广有. 瞬变电磁采样函数优化法降噪技术.地球物理学报.2017 60(9)3677-3684 |
| (53) |
Chen, W.Y.; Li, H.; Xue, G.Q.; Chen, K.; Zhong, H.S. 1D OCCAM inversion of SOTEM data and its application to 3D models. Chinese J Geophys-Ch 2017, 60, 3667-3676, doi:10.6038/cjg20170930.
陈卫营,薛国强等,SOTEM数据一维OCCAM反演及其应用于三维模型的效果.地球物理学报.2017 60(9):3667-3676 |
| (52) |
Yan, S.; Xue, G.Q.; Qiu, W.Z.; Zhou, N.N. Interpretation of CSAMT single-component data. Chinese J Geophys-Ch 2017, 60, 349-359, doi:10.6038/cjg20170129
闫述,薛国强,邱卫忠,薛国强 CSAMT 单分量数据解释方法 地球物理学报,2017 60(1):349-359 |
| (51) |
Cao, Q.H.; Yan, S.; Xue, G.Q.; Zhu, N. High resolution resistivity detecting and remote internet monitoring of coalfield fire. Chinese J Geophys-Ch 2017, 60, 424-429, doi:10.6038/cjg20170135
曹清华,闫述,薛国强(通讯作者),高分辨地电阻率探测与互联网络远程监测煤田火烧区,地球物理学报,2017 60(1):424-429
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| 2016年 (15) |
| (50) |
Xue, G.Q.; Chen, K.; Chen, W.Y.; Yan, S. The effect and application of "false extreme" in frequency-domain electromagnetic sounding. In Proceedings of the 7th International Conference on Environment and Engineering Geophysics, Kang, C., Dongyang, H., Eds. 2016; Vol. 71, pp. 1-3. |
| (49) |
Li, H.; Xue, G.Q.; Zhao, P.; Zhong, H.S.; Khan, M.Y. The Hilbert-Huang Transform-Based Denoising Method for the TEM Response of a PRBS Source Signal. Pure and Applied Geophysics 2016, 173, 2777-2789, doi:10.1007/s00024-016-1308-x |
| (48) |
Chen, W.Y.; Xue, G.Q.; Khan, M.Y. Quasi MT Inversion of Short-Offset Transient Electromagnetic Data. Pure and Applied Geophysics 2016, 173, 2413-2422, doi:10.1007/s00024-016-1274-3 |
| (47) |
Li, H.; Xue, G.Q.; Zhao, P.; Zhou, N.N.; Zhong, H.S. Inversion of arbitrary segmented loop source TEM data over a layered earth. J Appl Geophys 2016, 128, 87-95, doi:10.1016/j.jappgeo.2016.03.017. |
| (46) |
Zhou, N.N.; Xue, G.Q.; Li, H.; Younis, M.; Hou, D.Y.; Zhong, H.S.; Chen, W.Y.; Cui, J.W. A Comparison of Different-Mode Fields Generated from Grounded-Wire Source Based on the 1D Model. Pure and Applied Geophysics 2016, 173, 591-606, doi:10.1007/s00024-015-1088-8 |
| (45) |
闫述 薛国强 邱卫忠 李海 钟华森. 中心回线TEM 法探测多层积水采空区的可行性//Feasibility of central loop TEM method for prospecting multilayer water-filled goaf, APPLIED GEOPHYSICS, 2016, 13(4), P.587-597 |
| (44) |
Xue, G.Q.; Yan, S.; Chen, W.Y. A fast topographic correction method for electromagnetic data. Chinese J Geophys-Ch 2016, 59, 4408-4413, doi:10.6038/cjg20161202.
薛国强 闫述,陈卫营电磁测深数据地形影响的快速校正,地球物理学报,2016Vol. 59(12):4408-4413 |
| (43) |
Zhong, H.S.; Xue, G.Q.; Li, X.; Zhi, Q.Q.; Di, Q.Y. Pseudo wavefield extraction in the multi-channel transient electromagnetic (MTEM) method. Chinese J Geophys-Ch 2016, 59, 4424-4431, doi:10.6038/cjg20161204
钟华森, 薛国强, 李貅, 智庆全, 底青云,多道瞬变电磁法(MTEM)虚拟波场提取技术,2016革者Vol. 59(12):4424-4431 |
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Li, H.; Xue, G.Q.; Zhong, H.S.; Di, Q.Y. Joint inversion of CMP gathers of multi-channel transient electromagnetic data. Chinese J Geophys-Ch 2016, 59, 4439-4447, doi:10.6038/cjg20161206
李海, 薛国强, 钟华森, 底青云,多道瞬变电磁法共中心点道集数据联合反演,地球物理学,2016 Vol. 59(12):4439-4447 |
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Tian, Z.B.; Zhang, Y.B.; Wang, J.Q.; Yang, X.D.; Shen, Y.Y.; Huang, H.D.; Xiang, K.; Xue, G.Q. Study on the pre-stack seismic inversion prediction method for rich coal-bed-gas reservoirs: a case in southeastern Shanxi province. Chinese J Geophys-Ch 2016, 59, 4494-4504, doi:10.6038/cjg20161212.
田忠斌, 张胤彬, 王建青, 杨晓东, 申有义, 黄捍东, 向坤, 薛国强(通讯作者).富含煤层气储层的叠前地震反演预测方法研究——以山西晋东南测区为例,2016 Vol. 59 (12): 4494-4504 |
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Wu, X.; Xue, G.Q.; Chen, W.Y.; Wu, K.; Qi, L.; Liu, F.B.; Fang, G.Y. Contrast test of the transient electromagnetic system (CASTEM) at the Dawangzhuang iron mine in Anhui province. Chinese J Geophys-Ch 2016, 59, 4448-4456, doi:10.6038/cjg20161207.
武欣, 薛国强(通讯作者), 陈卫营, 吴凯, 齐林, 刘富波, 方广有,瞬变电磁探测系统(CASTEM)试验对比——安徽颖上大王庄铁矿 2016Vol. 59(12):4448-4456 |
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Wang, R.; Wang, M.Y.; Di, Q.Y.; Xue, G.Q.; Yin, C.C.; Lei, D. Signal synthesis of time-domain electromagnetic response excited by a pseudo random binary sequence source. Chinese J Geophys-Ch 2016, 59, 4414-4423, doi:10.6038/cjg20161203
王若, 王妙月, 底青云, 薛国强, 殷长春, 雷达,伪随机编码源激发下的时域电磁信号合成,2016Vol.59(12):4414-4423 |
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Yan, S.; Xue, G.Q.; Chen, M.S. Response of CSAMT electromagnetic component in the magnetized layered earth. Chinese J Geophys-Ch 2016, 59, 4457-4463, doi:10.6038/cjg20161208
闫述,薛国强(通讯作者),陈明生,磁性层状介质的CSAMT电场分量响应特征,地球物理学报 2016 Vol. 59(12):4457-4463
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Chen, W.Y.; Xue, G.Q.; Cui, J.W.; Zhong, H.S. Study on the response and optimal observation area for SOTEM. Chinese J Geophys-Ch 2016, 59, 739-748, doi:10.6038/cjg20160231
陈卫营,薛国强.SOTEM响应特性分析与最佳观测区域研究,地球物理学报,2016Vol. 59(2):739-748 |
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Cheng, J.L.; Chen, D.; Xue, G.Q.; Qiu, H.; Zhou, X.T. Synthetic aperture imaging in advanced detection of roadway using the mine transient electromagnetic method. Chinese J Geophys-Ch 2016, 59, 731-738, doi:10.6038/cjg20160230
程久龙, 薛国强. 矿井瞬变电磁法超前探测合成孔径成像研究,地球物理学报,2016 Vol. 59 (2): 731-738 |
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| 2011--2015年 (26篇) |
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Wu, X.; Xue, G.Q.; Di, Q.Y.; Zhang, Y.M.; Fang, G.Y. Accurate identification for the electromagnetic impulse response of the earth with pseudo random coded waveforms. Chinese J Geophys-Ch 2015, 58, 2792-2802, doi:10.6038/cjg20150814
武欣,薛国强,底青云,张一鸣,方广有,等.2015.伪随机编码源电磁响应的精细辨识.地球物理学报,58(8):2792-2802, |
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Xue, G.Q.; Li, X.; Gelius, L.J.; Qi, Z.P.; Zhou, N.N.; Chen, W.Y. A New Apparent Resistivity Formula for In-loop Fast Sounding TEM Theory and Application. J Environ Eng Geoph 2015, 20, 107-118, doi:10.2113/jeeg20.2.107. |
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Li, H.; Xue, G.Q.; Zhou, N.N.; Chen, W.Y. Appraisal of an Array TEM Method in Detecting a Mined-Out Area Beneath a Conductive Layer. Pure and Applied Geophysics 2015, 172, 2917-2929, doi:10.1007/s00024-015-1075-0 |
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Xue, G.Q.; Yan, S.; Gelius, L.J.; Chen, W.Y.; Zhou, N.N.; Li, H. Discovery of a Major Coal Deposit in China with the Use of a Modified CSAMT Method. J Environ Eng Geoph 2015, 20, 47-56, doi:10.2113/jeeg20.1.47. |
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Zhou, N.N.; Xue, G.Q.; Chen, W.Y.; Cheng, J.L. Large-depth hydrogeological detection in the North China-type coalfield through short-offset grounded-wire TEM. Environ Earth Sci 2015, 74, 2393-2404, doi:10.1007/s12665-015-4240-y. |
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Zhou, N.N.; Xue, G.Q.; Gelius, L.J.; Wang, H.Y.; Yan, S. Analysis of the near-source error in TEM due to the dipole hypothesis. J Appl Geophys 2015, 116, 75-83, doi:10.1016/j.jappgeo.2015.02.026 |
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Chen, W.Y.; Xue, G.Q. (通讯作者); Muhammad, Y.K.; Gelius, L.J.; Zhou, N.N.; Li, H.; Zhong, H.S. Application of Short-Offset TEM (SOTEM) Technique in Mapping Water-Enriched Zones of Coal Stratum, an Example from East China. Pure and Applied Geophysics 2015, 172, 1643-1651, doi:10.1007/s00024-014-1028-z. |
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Xue, G.Q.; Gelius, L.J.; Sakyi, P.A.; Zhou, N.N.; Chen, W.Y.; Su, B.C.; Li, H.; Zhong, H.S.; Su, Y.P. Discovery of a hidden BIF deposit in Anhui province, China by integrated geological and geophysical investigations. Ore Geol Rev 2014, 63, 470-477, doi:10.1016/j.oregeorev.2014.05.007. |
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Xue, G.Q.; Zhou, N.N.; Chen, W.Y.; Li, H.; Yan, S. Research on the Application of a 3-m Transmitter Loop for TEM Surveys in Mountainous Areas. J Environ Eng Geoph 2014, 19, 3-12, doi:10.2113/jeeg19.1.3. |
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Zhou, N.N.; Xue, G.Q. The ratio apparent resistivity definition of rectangular-loop TEM. J Appl Geophys 2014, 103, 152-160, doi:10.1016/j.jappgeo.2014.01.015. |
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Xue, G.Q.; Wang, H.Y.; Yan, S.; Zhou, N.N. Time-domain Green function solution for transient electromagnetic field. Chinese J Geophys-Ch 2014, 57, 671-678, doi:10.6038/cjg20140230.
薛国强,王贺元,闫述等.瞬变电磁场时域格林函数解.地球物理学报,2014,57(2):671-678 |
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Chen, W.Y.; Xue, G.Q. Effective skin depth of whole EM field due to a grounded wire source. Chinese J Geophys-Ch 2014, 57, 2314-2320, doi:10.6038/cjg20140725.
陈卫营,薛国强.接地导线源电磁场全域有效趋肤深度.地球物理学报,2014,57(7):2314-2320 |
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Xue, G.Q.; Cheng, J.L.; Zhou, N.N.; Chen, W.Y.; Li, H. Detection and monitoring of water-filled voids using transient electromagnetic method: a case study in Shanxi, China. Environ Earth Sci 2013, 70, 2263-2270, doi:10.1007/s12665-013-2375-2. |
| (22) |
Zhou Nan-nan,Xue Guo qiang,Wang He-yuan. Comparison of the time domain electromagnetic field from an infinitesimal point charge and dipole source. Applied Geophysics, 2013,10(3):349-356(SCI). |
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Xue, G.Q.; Gelius, L.J.; Xiu, L.; Qi, Z.P.; Chen, W.Y. 3D pseudo-seismic imaging of transient electromagnetic data - a feasibility study. Geophysical Prospecting 2013, 61, 5571, doi:10.1111/j.1365-2478.2012.01109.x. |
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Xue, G.Q.; Chen, W.Y.; Zhou, N.N.; Li, H. Short-offset TEM technique with a grounded wire source for deep sounding. Chinese J Geophys-Ch 2013, 56, 255-261, doi:10.6038/cjg20130126.
薛国强,陈卫营,周楠楠等.接地源瞬变电磁短偏移深部探测技术.地球物理学报,2013,56(1):255-261. |
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Li, X.; Xue, G.Q.; Liu, Y.A.; Qian, J.B. A research on TEM imaging method based on synthetic-aperture technology. Chinese J Geophys-Ch 2012, 55, 333-340, doi:10.6038/j.issn.0001-5733.2012.01.034
李貅,薛国强,刘银爱等.瞬变电磁合成孔径成像方法研究.地球物理学报,2012,55 (1): 333-340. |
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Xue, G.Q.; Li, X.; Quan, H.J.; Jaggar, S.; Zhou, N.N. Physical simulation and application of a new TEM configuration. Environ Earth Sci 2012, 67, 1291-1298, doi:10.1007/s12665-012-1572-8. |
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Xue, G.Q.; Qin, K.Z.; Li, X.; Li, G.M.; Qi, Z.P.; Zhou, N.N. Discovery of a Large-scale Porphyry Molybdenum Deposit in Tibet through a Modified TEM Exploration Method. J Environ Eng Geoph 2012, 17, 19-25, doi:10.2113/jeeg17.1.19. |
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Xue, G.Q.; Bai, C.Y.; Yan, S.; Greenhalgh, S.; Li, M.F.; Zhou, N.N. Deep sounding TEM investigation method based on a modified fixed central-loop system. J Appl Geophys 2012, 76, 23-32, doi:10.1016/j.jappgeo.2011.10.007. |
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Xue, G.Q.; Bai, C.Y.; Li, X. Extracting the Virtual Reflected Wavelet from TEM Data Based on Regularizing Method. Pure and Applied Geophysics 2012, 169, 1269-1282, doi:10.1007/s00024-011-0392-1. |
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Guo, W.B.; Xue, G.Q. (通讯作者); Li, X.; Liu, Y.A. Correlation analysis and imaging technique of TEM data. Explor Geophys 2012, 43, 137-148, doi:10.1071/eg11034. |
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Xue, G.Q.; Yan, S.; Zhou, N.N. Theoretical study on the errors caused by dipole hypothesis of large-loop TEM response. Chinese J Geophys-Ch 2011, 54, 2389-2396, doi:10.3969/j.issn.0001-5733.2011.09.022.
薛国强 闫述周楠楠,等 偶极子假设引起的大回线源瞬变电磁响应偏差分析,地球物理学报201154(9) 2389~2396 |
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Xue, G.Q.; Yan, Y.J.; Li, X. Control of the waveform dispersion effect and applications in a TEM imaging technique for identifying underground objects. J Geophys Eng 2011, 8, 195-201, doi:10.1088/1742-2132/8/2/007. |
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Xue, G.Q.; Yan, Y.J.; Cheng, J.L. Researches on detection of 3-D underground cave based on TEM technique. Environ Earth Sci 2011, 64, 425-430, doi:10.1007/s12665-010-0862-2. |
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Xue, G.Q.; Li, X.; Qi, Z.P.; Fan, T.; Zhou, N.N. Study of sharpening the TEM pseudo-seismic wave-form. Chinese J Geophys-Ch 2011, 54, 1384-1390, doi:10.3969/j.issn.0001-5733.2011.05.028.
薛国强,李貅,瞬变电磁拟地震子波宽度压缩研究,地球物理学报,2011,54(5):1384~1390 |
| |
| 2004-2010 (9篇) |
| (9) |
Li, X.; Qi, Z.P.; Xue, G.Q.; Fan, T.; Zhu, H.W. Three dimensional curved surface continuation image based on TEM pseudo wave-field. Chinese J Geophys-Ch 2010, 53, 3005-3011, doi:10.3969/j.issn.0001-5733.2010.12.025
李貅,戚志鹏,薛国强等.瞬变电磁虚拟波场的三维曲面延拓成像.地球物理学报,2010,53(12):3005-3011 |
| (8) |
Xue, G.Q.; Li, X. The technology of TEM tunnel prediction imaging. Chinese J Geophys-Ch 2008, 51, 894-900.
薛国强,李貅.瞬变电磁隧道超前预报成像技术,地球物理学报,2008,51(3):894-900 |
| (7) |
Xue, G.Q.; Yan, Y.J.; Li, X. Pseudo-seismic wavelet transformation of transient electromagnetic response in engineering geology exploration. Geophys Res Lett 2007, 34, doi:10.1029/2007gl031116. |
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Xue, G.Q.; Yan, Y.J.; Li, X.; Di, Q.Y. Transient electromagnetic S-inversion in tunnel prediction. Geophys Res Lett 2007, 34, doi:10.1029/2007gl031080. |
| (5) |
Guo, W.B.; Song, J.P.; Li, X.; Xue, G.Q.; Fan, J.S. Numerical calculation of borehole electrical survey in layered media and its applications. Chinese J Geophys-Ch 2006, 49, 1561-1566
郭文波,宋建平,李貅,薛国强等. 层状介质井中电测数值计算及其应用研究.地球物理学报,2006, 49 (5):1561-1566. |
| (4) |
Xue, G.Q.; Li, X.; Guo, W.B.; Song, J.P.; Di, Q.Y. Equivalent transformation from TEM field sounding data to plane-wave electromagnetic sounding data. Chinese J Geophys-Ch 2006, 49, 1539-1545.
薛国强,李貅,郭文波,宋建平,底青云.从瞬变电磁测深数据到向平面电磁波场数据的等效转换.地球物理报,2006,49(5):1539-1545 |
| (3) |
Guo, W.B.; Li, X.; Xue, G.Q.; Song, J.P.; Gu, L.S. A study of the interpretation system for TEM tomography. Chinese J Geophys-Ch 2005, 48, 1400-1405.
郭文波,李貅,薛国强等.瞬变电磁快速成像解释系统研究.地球物理学报,2005,48(6):1400-1405.
|
| (2) |
Li, X.; Xue, G.Q.; Song, J.P.; Guo, W.B.; Wu, J.J. An optimize method for transient electromagnetic field-wave field conversion. Chinese J Geophys-Ch 2005, 48, 1185-1190.
李貅,薛国强,宋建平等.从瞬变电磁场到波场的优化算法.地球物理学报,2005,48(5):1185-1190 |
| (1) |
XUE Guo Qiang LI Xiu SONG JianPing GUO WenBo.Theoretical analysis and numerical calculation of loop source transient electromagnetic imaging.Chinese Journal Of Geophysics,2004,47(2): 338-343
薛国强,李貅,宋建平,郭文波.回线源瞬变电磁成像的理论分析及数值计算.地球物理学报.2004, 47(2):338-343 |
出版专著
| (11) |
底青云,薛国强,王中兴,张一鸣,王顺,雷达,付长民,安志国,王若,武杰. 多通道瞬变电磁探测技术,科学出版社, 2019年11月. |
| (10) |
薛国强,刘树才,刘志新,赵育台.煤炭电法探测方法技术,科学出版社,2018年11月. |
| (9) |
底青云,薛国强,李貅(译著)((美)Michael S.Zhdanov).地球物理反演理论与应用,科学出版社,2018年6月. |
| (8) |
薛国强,周楠楠,陈卫营,武欣(译著)((德)Kurt M. Strack)).电性源瞬变电磁测深技术,科学出版社,2017年11月. |
| (7) |
薛国强,闫述,周楠楠,王贺元.瞬变电磁场点微元响应问题,科学出版社,2017年5月. |
| (6) |
Qingyun Di ,Guoqiang Xue, Jianghai Xia. Technology and application of Environmental and Engineering Geophysics,Springer press . 2017 . Nov. |
| (5) |
Xiu Li ,Guoqiang Xue, Changchun Yin. Migration Imaging of the Transient electromagnetic method,Springer press . 2016 . Nov. |
| (4) |
李貅,底青云,薛国强(译著)((美)Michael S.Zhdanov).地球物理电磁理论与方法,科学出版社,2015年6月. |
| (3) |
薛国强,闫述,周楠楠,陈卫营.人工源电磁测深方法技术研究,地质出版社,2015年11月. |
| (2) |
李貅,薛国强,李术才,郭文波,孙怀凤,戚志鹏.瞬变电磁隧道超前预报方法与应用,地质出版社,2013年8月. |
| (1) |
李貅,薛国强.瞬变电磁拟地震偏移成像研究,科学出版社,2013年6月. |
已授权国际专利16项
| [1] |
X. Wu, G. Q. Xue, Q. Y. Di, Multi-mode data observation method based on unmanned aerial vehicle formation for semi-airborne electromagnetic surveying, US 10,838,099 B1, Institute of Geology and Geophysics, Chinese Academy of Sciences, Nov. 17, 2020 |
| [2] |
X. Wu, G. Q. Xue, Q. Y. Di, W. B. Guo, J. H. Meng, A method for Geophysical observation information fusion, AU 2020101108, Institute of Geology and Geophysics, Chinese Academy of Sciences, Jun. 24, 2020. |
| [3] |
X. Wu, G. Q. Xue, Q. Y. Di, Z. Zhou, A method for airborne transient electromagnetic data processing, AU 2020101013, Institute of Geology and Geophysics, Chinese Academy of Sciences, Jun. 16, 2020. |
| [4] |
X. Wu, G. Q. Xue, Z. Zhou, Ground-air short offset electromagnetic detection system and method for separating multi-source transmission signals, AU 2020100334, Institute of Geology and Geophysics, Chinese Academy of Sciences, Mar. 6, 2020. |
| [4] |
ZHOU, Nannan; XUE, Guoqiang; LEI, Kangxin; ZHONG, Huasen and HOU, Dongyang. A Very-Short Offset Transient Electromagnetic Method with a Grounded-wire Source: Australia, 2020100496[P], 2020-04-29. |
| [5] |
ZHOU, Nannan; XUE, Guoqiang; LEI, Kangxin and HOU, Dongyang. Transient Electromagnetic Detection Method with Cross-Like Grounded-Wire Source: Australia, 2020100497[P], 2020-04-29. |
| [6] |
Qingyun Di ,Guoqiang Xue, RuoWang,ZhiGuo An, Chang ming Fu,Da Lei,xian, Xian junZhuo, Zhongxing Wang.WEM-based method for deep resource detection using sky waves. United patent US 15/851.754 |
| [7] |
Qingyun Di ,Guoqiang Xue, Chang ming FuRuo,Wang. A CONTROLLED-SOURCE AUDIO-FREQUENCY MAGNETOTELLURICS METHOD FOR PROSPECTING DEEPLY BURIED RESOURCES, Auatralia patent No. 2020101106 |
| [8] |
Qingyun Di ,Guoqiang Xue,Lihai,Wang Zhongxing.A method for multi-channel transient electromagnetic survey using broadside configuration. Auatralia patent No. 2020101906 |
| [9] |
XUE, Guoqiang ,CHEN, Weiying,GUO, Wenbo,ZHOU, Nannan,LI, Ha,WU, Xin. A METHOD FOR GROUNDED SHORT-OFFSET TRANSIENT ELECTROMAGNETIC GEOPHYSICAL SURVEYING. Auatralia patent No. 2020101105 |
| [10] |
XUE, Guoqiang, Li Xiu, LiuBin, Sun Huaifen, Di qingyun, HouDongyang. 2020.11.03. Correction method for transient electromagnetic method-based prediction of water-bearing structure ahead of tunnel wall. . US10823872. |
| [11] |
XUE, Guoqiang,HouDongyang,WuXin,Yu Chuantao,Ahaoyang.A method for determining middle zone exploration depth of electromagnetic exploration.Auatralia patent No. 2020101905 |
| [12] |
Chen weiying ,Xue guoqiang,Heyiming,Zhanglinbo,Chenwen. Artifial source near-zone frequency domain electromagnetic sounding method. Australia innovation patent, 2020100504 |
| [13] |
HanSixu,Chen weiying,Xue guoqiang,LuoQiang.A multi-source short-offset frequency domainelectromagnetic detection method. Australia innovation patent, 2020101824 |
| [14] |
GUO, Wenbo; WANG, Hongyu; XUE, Guoqiang; QIN, Xishe and LIU, Yinai .A Method and Apparatus for Ground-tunnel Wide Field Electromagnetic Surveying。Auatralia patent No. 2020100984 |
| [15] |
ZhouZhou, XUE Guoqiang,YanShu,QiuWeizhong.Method, system and device for indentifying water-filled goaf area in coal mine. Auatralia patent No.2020102336 |
| [16] |
Wang hongyu, Guowenbo,Xueguoqiang, LiuJianXin, LiuYinai Ground-Tunnel Tunnel Wide-Field Electromagnetic Exploration Method and Array. Auatralia patent No.2020100984 |
已授权中国专利列表44项
第一发明人(19项):
| (1) |
薛国强,郭文波,侯东洋. 一种地-井激发极化测量方法及相关设备. ZL201610727523.5,授权日:2018年12月14日 |
| (2) |
薛国强,钟华森,侯东洋,冯西会. 一种地下目标体导电指数提取方法与装置. ZL201610052096.5,授权日:2018年11月20日 |
| (3) |
薛国强,闫述,底青云,邱卫忠,陈卫营,钟华森,侯东洋. 一种用于电磁干扰地区的CSAMT测量方法和装置. ZL201510166597.1,授权日:2018年11月16日 |
| (4) |
薛国强,钟华森,底青云,李貅,程久龙. 一种矿井瞬变电磁超前探测的巷道效应消除方法和装置. ZL201510332956.6. 授权日:2018年8月7日 |
| (5) |
薛国强,崔江伟,底青云,钟华森,冯西会. 一种地下目标体异常定量判定方法和装置. ZL201510979352.0. 授权日:2018年5月4日 |
| (6) |
薛国强,陈康,底青云,吴燕清,田忠斌,赵育刚. 一种评估煤层顶板视涌水量的方法和装置. ZL201610077522.0. 授权日:2018年3月20日 |
| (7) |
薛国强,李海,钟华森,底青云,王若. 一种多道瞬变电磁探测数据的反演方法和装置. ZL201510332957.0. 授权日:2017年12月19日 |
| (8) |
薛国强,钟华森,底青云,侯东洋. 一种煤层基底奥灰顶界面起伏形态探测的方法和装置. ZL201510166548.8.授权日:2017年10月17日 |
| (9) |
薛国强,钟华森,底青云,侯东洋,马振军,陈康. 一种煤层埋藏深度的探测方法和装置. ZL201510332845.5. 授权日:2017年10月13日 |
| (10) |
薛国强,闫述,钟华森,底青云,侯东洋. 一种地下电性薄层的识别方法和装置. ZL201510210282.2.授权日:2017年8月25日 |
| (11) |
薛国强,钟华森,崔江伟,李海,底青云. 一种瞬变电磁探测的盲深度测量方法和装置. ZL201510210281.8.授权日:2017年7月25日 |
| (12) |
薛国强,闫述,底青云,邱卫忠,程久龙,陈卫营. 一种基于瞬变电磁法探测煤矿积水采空区的方法和装置. ZL201510051516.3. 授权日:2017年6月16日 |
| (13) |
薛国强,侯东洋,底青云,钟华森,马振军. 一种判断隧道围岩类别的方法. ZL201510166596.7. 授权日:2017年5月31日 |
| (14) |
薛国强,岳建华,底青云,陈卫营,崔江伟,韩德品. 长导线接地源地下瞬变电磁探测方法及装置. ZL201410746452.4.授权日:2017年1月4日 |
| (15) |
薛国强,崔江伟,底青云,李貅. 一种瞬变电磁B场确定地下目标体地质信息方法. ZL201410746339.6.授权日:2016年10月12日 |
| (16) |
薛国强,周楠楠,底青云,闫述,陈卫营,侯东洋. 一种瞬变电磁探测方法、装置和系统. ZL201510072462.9. 授权日:2016年8月17日 |
| (17) |
薛国强,闫述,周楠楠. 瞬变电磁测深数据的直接时间域处理方法. ZL201110181011.0.授权日:2013年8月14日 |
| (18) |
薛国强,李貅,郭文波. 一种煤矿充水采空区检测方法. ZL201110363286.6.授权日:2013年7月10日 |
| (19) |
薛国强,闫述,陈卫营. 电性源瞬变电磁法全场区探测方法. ZL201110181015.9. 授权日:2013年4月10日 |
实用新型(3项)
| (1) |
薛国强,周楠楠,陈卫营,李海,郭伟立,苏艳平. 瞬变电磁探测接收功能主控装置. ZL201220377322.4. 授权日:2013年3月13日 |
| (2) |
薛国强,杨超,周楠楠,陈卫营,李海,郭伟立,苏艳平. 瞬变电磁发射装置和瞬变电磁发射系统. ZL201220377224.0. 授权日:2013年3月31日 |
| (3) |
汪青松,张金会,尤淼 薛国强 赵兴邦. 一种井中偏心贴壁电极 新型专利 Zl2019 2 2022960.9授权日:2019年11月21日 |
其它发明人(22项):
| (1) |
武欣,方广有,薛国强,底青云,张一鸣. 一种电磁大地冲激响应的辨识方法. ZL201410743525.4. 授权日:2017年7月28日 |
| (2) |
武欣,薛国强,周舟. 地空短偏移电磁探测系统、多源发射信号分离方法. 专利号:ZL 2020 1 0071726.X.日授权日:2020年11月10日 |
| (3) |
真齐辉、底青云、薛国强,一种减少瞬变电磁关断时间的装置及其方法.2017107391669,授权日:2019年10月10日 |
| (4) |
周楠楠,薛国强,钟华森,侯东洋. 一种接地导线源瞬变电磁超短偏移距探测方法. ZL201710436045.7,授权日:2019年6月28日 |
| (5) |
李海,周楠楠,薛国强. 一种电性源瞬变电磁电场响应成像方法. ZL201710079505.5,授权日2019年5月31日 |
| (6) |
周楠楠,薛国强,侯东洋. 一种类十字接地导线源瞬变电磁探测方法. ZL201710462820.6,授权日:2019年5月3日 |
| (7) |
底青云,张一鸣,薛国强. 一种基于Gold编码的多发多收电磁探测方法. ZL201710026992.9,授权日:2019年3月12日 |
| (8) |
郭文波,薛国强,李貅,底青云,崔江伟,刘银爱.一种地下目标体的瞬变电磁多分量合成方法和装置. ZL201610104011.3.授权日:2019年1月18日 |
| (9) |
陈卫营,薛国强,陈康,钟华森,马振军. 一种探测油气储层的可控源电磁方法. ZL 201710028283.4,授权日:2019年2月5日 |
| (10) |
邱卫忠,张统军,薛国强,陈康. 一种对穿越采空区隧道围岩稳定性评价方法. ZL201611213351.6,授权日:2018年11月30日 |
| (11) |
张胤彬,薛国强,魏书宏,王润福,李莲英. 一种城区含煤构造地球物理预测方法与装置. ZL201610493086.5,授权日:2018年9月14日 |
| (12) |
底青云,张一鸣,薛国强,真齐辉,郭兵. 一种电磁发射机. ZL201610728616.X. 授权日:2018年6月22日. |
| (13) |
周楠楠,薛国强,李海,钟华森,侯东洋. 一种矩形回线源瞬变电磁探测的方法和装置. ZL201610077521.6.授权日:2017年8月29日。 |
| (14) |
武欣,方广有,薛国强,底青云,张一鸣. 一种电磁大地冲激响应的辨识方法. ZL201410743525.4. 授权日:2017年7月28日 |
| (15) |
底青云,陆建勋,赵国泽,刘勇,王妙月,薛国强. 一种利用天波进行深部勘探的系统和方法. ZL201610218729.5. 授权日:2017年3月8日 |
| (16) |
底青云,王妙月,陆建勋,薛国强. 一种确定天波传播特性的系统和方法. ZL201610218909.3. 授权日:2017年3月1日 |
| (17) |
底青云,王中兴,付长民,安志国,王若,张文秀,杨永友,陈彬彬,薛国强. 一种深部矿电磁探测方法与装置. ZL201610133889.X. 授权日:2017年2月22日 |
| (18) |
底青云,张一鸣,王旭红,薛国强. 电磁场发射机及其零电压切换软开关系统. ZL201610204629.7. 授权日:2017年2月08日 |
| (19) |
底青云,张一鸣,郭兵,薛国强. 一种分布式电磁发射机系统及其控制方法. ZL201610218445.6. 授权日:2017年1月11日 |
| (20) |
底青云,李貅,薛国强,侯东洋. 一种多通道瞬变电磁法三维探测的装置和方法. ZL201610243145.3. 授权日:2016年12月14日 |
| (21) |
闫述,薛国强,郭文波,邱卫忠,底青云,黎刚. 一种多层积水采空区探测方法. ZL201310666509.5. 授权日:2016年8月17日 |
| (22) |
闫述,郭文波,薛国强,邱卫忠,底青云,黎刚. 一种利用实测数据中误差记录提高电磁探测质量的方法. ZL201310667115.1. 授权日: 2016年5月4日 |
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