Ph.D. Supervisor and Master's Supervisor
Name: Rujun Chen
Professional Title: Associate Professor
Administrative Position: Associate Professor
Name (Pinyin): chenrujun
Sex: Male
School/Department: School of Geosciences and Info-physics
Education Level: PhD Graduate
Date of Employment: 2003-10-31
Degree: Doctoral degree
Alma Mater: Central South University
Status: Employed
Discipline: Geological Resources and Geological Engineering
Enrollment Disciplines: Geological Resources and Geological Engineering

Chen Rujun was born in August 1973, Sinan, Guizhou, Tujia nationality, member of the Revolutionary Committee of the Chinese Kuomintang; member of the Geophysical Technical Committee of the Chinese Geophysical Society, director of the Hunan Geophysical Society, consultant for the cultural CSU; member of SEG, EEGS, AGU, EAGE, IEEE, Chinese Geophysical Society and Chinese Instrument and Control Society. Mainly engaged in teaching and scientific research related to precision geophysical instrumentation and measurement, geophysical exploration technology and geophysical signal processing. Obtained 30 national invention patents, published more than 80 journal papers and conference papers (of which more than 40 were indexed by SCI/EI), and were cited more than 500 times. He has made conference reports at many academic conferences at home and abroad. Most of the graduate students under his guidance have been employed in famous IT companies such as ZTE, Huawei, and VIVO, and have been well received by employers. The teaching and research results have been reported by the central media of China many times. Presided over the successful development of a variety of precision geophysical instruments, and achieved mass production and large-scale applications. Especially in the field of electrical and electromagnetic exploration instruments, the large-scale three-dimensional precision spectral IP detection system and the 3D AMT/MT/CSAMT/CSEM multi-function precision electromagnetic detection system have been developed, and they have been widely used. Above instruments have played a unique role in breakthroughs in non-ferrous metals, chromite and geothermal exploration, realized the distinction between mineral and non-mineral IP anomalies, effectively improved the exploration depth and exploration effect, and achieved precision SIP exploration depth> 1500 m, precision electromagnetic method exploration depth> 7000 m. The application of advanced technologies such as artificial intelligence, Internet of Things, 4G, 5G, and wireless sensor networks in geophysical instruments and prospecting is currently being studied to provide support for the realization of low-cost, large-scale, high-precision, high-efficiency and high-reliability geophysical prospecting.
To learn more about Chen Rujun's academic achievements, please visit the following website:
ResearchGate: https://www.researchgate.net/profile/Rujun_Chen
ResearcherID: https://publons.com/researcher/1360212/rujun-chen/
ORCID: https://orcid.org/0000-0002-9484-7485

2021
√In cooperation with the Geological and Mineral Exploration Institute of Guizhou Non-ferrous Metals and Nuclear Industry Geological Survey Bureau, guided Spread Spectrum IP exploration for concealed lead-zinc deposits in Bijie area, Bijie, September 2021

√At the invitation of Professor Guo Wenbo, General Manager of the Northwest Nonferrous Geological and Geochemical Exploration Corps Company, a professor-level senior engineer, gave a report on "Spread-spectrum IP Principles and Applications" in Northwest Nonferrous Metals, Xi'an, September 17, 2021
√At the invitation of Research Professor Shi Xianxin of China Coal Science and Industry Group Xi'an Research Institute Co., Ltd., Chen Rujun made a report on "High-efficiency, high-precision, large-depth electrical electromagnetic method and its application" in Xi'an Research Institute, which was affirmed by Research Professor Chen Mingsheng. Xi'an, September 16, 2021.

Shi Xianxin, Chen Mingsheng, Chen Rujun (from left to right)
√Instructed by Chen Rujun, students Wu Zhongjiang, Wang Haoran, Yu Donghai, Yu Donghai and Yu Lang undertook the "ZigBee-based 3D Large Depth and High Density Spectral IP Instrument Design" project in the 7th "Internet +" College Student Innovation and Entrepreneurship Competition of Central South University. , Won the second prize, Changsha, August 2021
√Asked Professor Niu Zhilian, a pioneer of transient electromagnetics in China, about the transient electromagnetic method, and received 45 copies of the book "Principles of Time Domain Electromagnetic Method" donated by Professor Niu Zhilian, Changsha, July 28, 2021

Yao Hongchun, Chen Rujun, Niu Zhilian, Li Wenyao (from left to right)
√Participated in the 15th China International Geo-Electromagnetic Symposium and gave an academic report on electromagnetic induced polarization at the conference, Changchun, July 17-19, 2021
√Participated in the Fifth Council General Meeting and the First General Council Meeting of the Geological Instrument Branch of the Chinese Society of Instrumentation, Changchun, July 17, 2021
√At the invitation of Li Aiyong, Chief Engineer of Team 814, Jiangsu Non-ferrous Metals East China Geological Exploration Bureau, give a report on "Principle and Application of Spread Spectrum Induced Polarization to Distinguish Ore and Non-ore IP Anomaly", Nanjing, July 9, 2021
√All the undergraduates under the guidance of Chen Rujun successfully completed the defense. Among them, Peng Xin's graduation thesis was rated as excellent, Changsha, June 2021; the undergraduate thesis he instructed is as follows:
Xin Peng, software development of embedded system based on NB-IoT and ZigBee
Fenghai Liu, high-performance IoT terminal hardware development
Liu Zhen, Wi-Fi-based development of the Android APP for the magnetotelluric of the Internet of Things
√Leading the team to participate in the 9th Academic Conference of the Geophysical Technical Committee of the Chinese Geophysical Society, and was guided and praised by Professor Luo Yanzhong, an authoritative IP author in my country, Wuhan, May 21-23, 2021; the academic report is as follows:
Chen Rujun, Comprehensive Geophysical Exploration of the Water Source of Yuelu Mountain, Central South University
Liu Zhitong, 192 channels spontaneous potential meter measurement and control software development based on Android platform
Hou Shenglan, Software design of broadband rock ore spectrum IP tester based on NB-IoT
Wang Feifei, Hardware development of broadband IP tester for rock and ore specimens

Chen Rujun, Luo Yanzhong, He Zhanxiang (from left to right)
√Under the guidance of Chen Rujun, the undergraduate innovation and entrepreneurship project "Distributed high-density electrical instrument design based on NB-IoT" undertaken by Yan Shenwei, Wei Kanggui, Ning Xia, and Yuan Zijun won the "Creation China" Central South University Station and 2021 Central South University College Student Innovation "Excellent Exhibition Board Award", "My Favorite Live Show Project Award", "Excellent Case Award", "Excellent Paper Report Award" and "Excellent Project Award" at the Entrepreneurship Annual Conference. Changsha, May 2021
√At the invitation of senior engineer He Lanfang, Chen Rujun gave a report at the Key Laboratory of Mineral Resources Research of the Chinese Academy of Sciences on "Spread-spectrum IP Differentiation of Orebody and Surrounding Rock: Principles and Applications", Beijing, April 2, 2021
√At the invitation of Dr. Zhao Lifang, Team 814 of the East China Nonferrous Metals Geological Survey, Rujun Chen gave a report on "High-efficiency, high-precision, large-depth electrical and electromagnetic methods and their applications." In the report, he systematically introduced the principle and application progress of new methods, such as three-dimensional electrical method, frequency division ERT method, spread spectrum IP method, electromagnetic detection technology and equipment based on Internet of Thingh, and electromagnetic induced polarization method. Discussed with the participating colleagues on difficult issues including the evaluation of fault water content in electrical and electromagnetic exploration, March 19, 2021, web conference
√Presented a report "Principles and Future of Magnetotellurics Instrumentation" at Hunan Geosun Hi-technology Co., Ltd., introducing the principles, key technologies, main parameters and development trends of magnetotellurics instrumentation, March 11, 2021, Changsha
2020
√Graduate students Wang Zihui and Li Shengjie were favored by employers and received offers from many well-known companies. Wang Zihui’s offers include Huawei, ZTE, VIVO, Hikvision, Ziguang Zhanrui, Yangtze River Storage and BOE, and Li Shengjie’s offers include ZTE Microelectronics, Jingjia Microelectronics, TP-Link and Dongfanghong Satellite Communications, 2020 November 27, 2015, Changsha
√Carry out year-end summary and team building activities, arrange scientific research activities during the winter vacation, December 31, 2020, Changsha


›中国地质调查局呼和浩特自然资源综合调查中心:中国地质调查局呼和浩特自然资源综合调查中心样品委托测试,立项时间:2026-06-24
›中国电建集团成都勘测设计研究院有限公司:复电导率隧洞环境观测系统模拟测试,立项时间:2026-06-20
›广西正屹工程技术有限公司:广西贵港市何村矿区电法勘探,立项时间:2026-06-11
›贵州省林业科学研究院:贵州主要古树名木健康诊断可视化检测技术体系研发,立项时间:2026-01-01
›广西正屹工程技术有限公司:广西环江县岜楼矿区电法勘探,立项时间:2025-11-11
›复杂赋存条件下输水建筑物隐伏病害形成机理与集成探测装备研究,立项时间:2025-09-30
›蛇绿岩型铬铁矿成矿理论和关键勘探技术研发集成研究,立项时间:2025-08-01
›内蒙古嘉兆矿业有限责任公司:内蒙古阿拉善盟额济纳旗英雄山电法勘探,立项时间:2025-05-19,结项时间:2026-05-19.
›长沙巨杉智能科技有限公司:无人机MIMO-TEM瞬变电磁仪研发,立项时间:2025-07-18
›阿拉善左旗友邦矿业开发有限责任公司:呼和沙拉电法勘探,立项时间:2024-08-13,结项时间:2024-12-13.
›江苏华东矿山工程有限公司:三维大深度扩频激电系统研发,立项时间:2024-07-29,结项时间:2025-09-30.
›江苏华东地质环境工程有限公司:三维土壤电导率监测系统及监测台站研发,立项时间:2024-07-29,结项时间:2025-10-31.
›长沙巨杉智能科技有限公司:便携式岩矿石标本频谱激电测试仪研制,Rujun Chen,开始日期:2019-12-20,结项时间:2021-12-31.
›长沙巨杉智能科技有限公司:微弱电磁信号采集技术,Rujun Chen,开始日期:2020-05-30,结项时间:2023-12-31.
›磷石膏渣场至发财洞地下水渗漏通道电法探测研究(D区),立项时间:2023-07-21
›磷石膏渣场至发财洞地下水渗漏通道电法探测研究,立项时间:2023-06-12
›岩矿石样本电性测量仪研制,立项时间:2022-10-10
›基于物联网(4G/5G+NB-loT)的电磁信号采集及监测系统开发,立项时间:2022-02-11
›低电阻率地表条件的相位激电仪器研发,立项时间:2022-02-11
›河南省镇平县祈子堂(金)-楸树湾(铜钼)深部及外围矿产资源调查与评价
›河南省镇平县楸树湾矿区深部及外围铜钼矿普查多频激电
›西藏铬铁矿岩矿石标本电性测量及自然电位法勘探设计
›物探异常验证
›扩频激电发送机及采集技术研究
›合江口多金属高精度物探深部找矿
›重载铁路桥梁与路基检测与强化技术
›直接油气检测电磁系统研制
›智能伪随机多频电磁勘探系统,开始日期:2005-04-18,结项时间:2007-04-18.

›陈儒军, 林品荣, 吕庆田, 刘卫强.多周期全波形激电抗干扰数据处理方法及在大规模探测中的应用分析[J].地球物理学报, 2019, 62 (10) : 3934-3949.
›Hongzhu, Liangyong Yang, Chaojian Chen, Pinrong Lin, Rujun Chen, Qingtian Lü, Weiqiang, Liu.A modified empirical mode decomposition method for multiperiod time-series detrending and the application in full-waveform induced polarization data[J].Geophysical Journal International, 2019, 217 (2) : 1058-1079.
›陈兴生, 王小杰, liuhaifei, 陈儒军, 邢润林.不同噪声水平高密度电法的分辨率和勘探深度研究[J].物探化探计算技术,2019,41(01):68-79., 2019, 41 (01) : 68-79.
›Rujun Chen, Abdel Jardani, André Revil, Abdellahi, Soueid Ahmed.3D geostatistical inversion of induced polarization data and its application to coal seam fires[J].Geophysics, 2018, 83 (3) : E133-E150.
›RJ Chen, HC Yao, XL Xi, XF Zhao, LG Xu, BY Xiao, XB Wang, ZX He, Dorji, L Chen, LF, He.Mapping chromite deposits with audio magnetotellurics in the Luobusa ophiolite of southern Tibet[J].Geophysics, 2018, 83 (2) : B47-B57.
›宿传玺, 李凯, 李术才, 林久卿, 刘功杰, 范秋雁, 李海燕, 陈儒军, 吴启龙, 孙怀凤.浅层岩溶瞬变电磁响应规律试验研究[J].岩石力学与工程学报, 2018, 37 (03) : 652-661.
›Jianhua Li, Hongzhu Cai, Rujun Chen, Qingtian Lü, Pinrong Lin, Weiqiang, Liu.Time domain and frequency domain induced polarization modeling for three-dimensional anisotropic medium[J].Journal of Environmental and Engineering Geophysic, 2017, 22 (4) : 435-439.
›André Revil, Weibin Luo, Hongzhu Cai, Rujun Chen, Weiqiang Liu.Correlation analysis for spread-spectrum induced-polarization signal processing in electromagnetically noisy environments[J].Geophysics, 2017, 82 (5) : E243-E256.
›Weili Li, Xuejun Liu, Ligui Xu, Bing Zhang, Zhengjiang Wang, Xuben Wang, Ling Chen, Lanfang, He.Electrical properties and its correlation to the petrology of the Upper Yangtze organic shales[J].Geophysics, 2017, 82 (4) : D199-D209.
›陈儒军, 李梅, 罗维斌.相关辨识谱激电法及野外实验[J].地球物理学进展, 2017, 32 (03) : 1393-1398.
›Weibin Luo, Hongzhu Cai, Rujun Chen, Weiqiang, Liu.Robust statistical methods for impulse noise suppressing of spread spectrum induced polarization data, with application to a mine site, Gansu province, China[J].Journal of Applied Geophysics, 2016, 135: 397-407.
›Hongchun Yao, Rujun Chen, Xuefeng Zhao, Xiaolu Xi, Ling Chen, Lanfang, He.Mapping the Geothermal System Using AMT and MT in the Mapamyum (QP) Field, Lake Manasarovar, Southwestern Tibet[J].Energies, 2016, 9 (10) : 855.
›陈儒军, 刘卫强.相干度分析用于强干扰背景下多频激电信号处理[J].中国有色金属学报, 2016, 26 (03) : 655-665.
›陈儒军, 刘卫强.稳健统计用于扩频激电数据预处理与脉冲噪声压制[J].地球物理学进展,2016,31(03):1332-1341., 2016, 31 (03) : 1322-1341.
›向毕文, 何馨, 成沁宇, 李昂, 陈儒军, 淳少恒.软开关机在高可靠性分布式电法仪器中的设计[J].地球物理学进展, 2015, 30 (02) : 928-933.
›刘卫强, 吴宏, 姚红春, 淳少恒, 陈儒军, 向毕文.利用指数函数拟合去除扩频激电信号中的电磁耦合感应[J].物探与化探, 2015, 39 (05) : 1053-1058.
›卢祥弘, 向毕文, 陈儒军, 淳少恒.OCXO时钟修正机制在电法勘探采集中的应用研究[J].地球物理学进展, 2015, 30 (04) : 1870-1881.
›向毕文, 陈儒军, 刘卫强.稳健M估计用于瞬变电磁数据抽道叠加与噪声压制[J].物探与化探, 2015, 39 (06) : 1238-1244.
›耿明会, 陈儒军, 淳少恒.伪随机m序列及其在电法勘探中的应用进展.地球物理学进展, 2014, 29 (01) : 439-446.
›陈儒军, 卢祥弘, 何展翔, 姚红春, 邱开林, 申瑞杰.基于GPS同步的大地电磁采集站标定信号发生器设计与实现[J].物探与化探, 2013, 37 (01) : 82-87.
›韦佳, 陈儒军, 罗兰兵, 颜良.片上可编程系统在地震数据采集中的应用[J].微型机与应用, 2011, 30 (24) : 23-25.
›何展翔, 陈儒军, 仇洁婷.嵌入式系统在电磁法勘探仪器中的应用概述[J].地球物理学进展, 2010, 26 (02) : 746-753.
›邱开林, 何展翔, 陈儒军, 仇洁婷.Linux2.6内核下同步串行通信驱动的开发与应用[J], 2010, 30 (03) : 850-853.
›刘胜利, 陈儒军, 姚红春.基于以太网的多频激电仪自动测试软件开发[J].物探化探计算技术, 2010, 32 (02) : 211-216.
›何展翔, 陈儒军, 卢祥弘.基于FPGA的恒温晶振频率校准系统的设计[J].电子技术应用, 2010, 36 (07) : 101-104.
›李向宇, 陈儒军, 姚红春.基于GPRS的多频激电仪远程测控系统[J].地球物理学进展, 2010, 25 (02) : 692-700.
›陈儒军, 颜良.地球物理勘探用高精度隔离放大器[J].地球物理学进展, 2009, 24 (02) : 763-767.
›梁红波, 陈儒军, 刘石.基于IPM的电法勘探发送机逆变器外围驱动电路研究[J].地球物理学进展, 2008 (05) : 1626-1633.
›陈一平, 颜良, 陈儒军, 刘石.IPM在电法发送机上应用时的死区时间选择[J].地球物理学进展, 2006 (01) : 314-318.
›陈一平, 刘石, 陈儒军, 颜良.基于UAF42通用滤波芯片的50Hz陷波器设计[J].仪器仪表学报, 2006 (08) : 924-927.
›邓素平, 陈儒军, 刘石.电法勘探发送机使用串口通信的方法研究[J].现代电子技术, 2006 (21) : 26-29.
›陈一平, 刘石, 陈儒军, 颜良.Multisim 2001在基于UAF42陷波器设计中的应用[J].现代电子技术, 2005 (23) : 96-98.
›汤井田, 白宜诚, 何继善, 陈儒军.多频激电相对相位谱研究[J].中南大学学报(自然科学版), 2004 (01) : 106-111.
›罗维斌, 陈儒军, xiaojianping, 杨学顺, 白宜诚.单总线技术在地电场多电极数据采集系统中的应用[J].中南大学学报(自然科学版), 2004 (03) : 457-462.
›汤井田, 白宜诚, 何继善, 陈儒军.双频激电仪的建模与仿真分析[J].物探化探计算技术, 2003 (04) : 289-297.
›汤井田, 白宜诚, 何继善, 罗维炳, 陈儒军.高精度多频电法数据采集系统[J].物探与化探, 2003 (05) : 375-378.
›邓明, 白宜诚, 陈儒军.海底大地电磁探测仪数据采集软件[J].中南工业大学学报(自然科学版), 2002 (02) : 111-115.
›邓明, 崔燕丽, 白宜诚, 陈儒军.海底大地电磁探测仪的测试方法[J].中南工业大学学报(自然科学版), 2002 (04) : 344-347.
›邓靖武, xiaojianping, 李哲, 陈儒军, 白宜诚, 邓明.PC104嵌入式计算机在海底大地电磁信号采集中的应用[J].中南工业大学学报(自然科学版), 2002 (6) : 555-558.
›陈儒军, 张宪润.激电相对相位法区分矿与非矿异常的成功实例[J].物探与化探, 1998 (4) : 251-254.

›一种电磁勘探数据采集的系统和方法 ZL 201910125040.1,姚红春, 席小鹭, 赵雪峰, 陈儒军, 申瑞杰, 何兰芳, 李洪爽, 李展洲, 张水, 授权号:201910125040.1.
›一种隐伏矿的电磁学预测方法 ZL201910560517.9,陈儒军, 姚红春, 何展翔, 何兰芳, 授权号:ZL 201910560517.9.
›一种ZigBee数据传输的方法 ZL201410092532.2,陈儒军, 仇洁婷, 姚红春, 吴宏, 席小鹭, 授权号:ZL201410092532.2.
›激电发送机的无线控制系统和方法 ZL201310309165.2,陈儒军, 淳少恒, 授权号:ZL201310309165.2.
›一种岩矿石标本电阻率测量方法 ZL201310195209.3,宋喜林, 米晓利, 何展翔, 陈儒军, 何兰芳, 授权号:ZL201310195209.3.
›一种电磁法勘探系统处理采集数据的方法和装置 ZL201310606798.X,仇洁婷, 姚红春, 陈儒军, 吴宏, 授权号:ZL201310606798.X.
›大地电磁探测仪性能评价方法 ZL200910237810.8,何兰芳, 刘雪军, 陈儒军, 何展翔, 授权号:ZL200910237810.8.
›一种基于GPRS的多频激电仪远程测控系统 ZL200910302984.8,陈儒军, 姚红春, 授权号:ZL200910302984.8.
›一种电法勘探激电模型参数的提取方法 ZL200910227009.5,陈儒军, 李向宇, 授权号:ZL200910227009.5.
›一种二次电池测试系统 ZL200910043715.4,黄哲远, 肖明辉, 陈儒军, 申瑞杰, 授权号:ZL200910043715.4.
›一种大地电磁信号采集方法与装置 ZL200910081483.1,陈儒军, 刘雪军, 何展翔, 杨轮凯, 何兰芳, 授权号:ZL200910081483.1.
›伪随机多频仪接收机自动测试系统 ZL200910044457.1,刘胜利, 姚红春, 陈儒军, 授权号:ZL200910044457.1.
›多通道精密二次电池测试系统 ZL200710035047.1,尤天博, 韦洪兰, 唐波, 陈儒军, 仇洁婷, 授权号:ZL200710035047.1.
›精密隔离放大仪前置放大及滤波电路 ZL200610031312.4,刘石, 何继善, 颜良, 陈儒军, 授权号:ZL200610031312.4.
›精密隔离放大仪 ZL200610031321.3,刘石, 何继善, 颜良, 陈儒军, 授权号:ZL200610031321.3.
›一种电法勘探信号发送机 ZL200610031320.9,颜良, 何继善, 刘石, 陈儒军, 授权号:ZL200610031320.9.
›一种电法勘探信号接收机及其放大倍数智能控制方法 ZL200610032549.4,丁科, 何继善, 蔡自兴, 陈儒军, 授权号:ZL200610032549.4.
›人工场源电法勘探信号接收机放大倍数设置方法 ZL200610032447.2,丁科, 何继善, 蔡自兴, 陈儒军, 授权号:ZL200610032447.2.
›一种大地电磁阻抗测量方法 ZL200610078739.X,陈儒军, 何兰芳, 何展翔, 杨轮凯, 授权号:ZL200610078739.X.
›信号放大倍数控制电路 ZL200610031297.3,刘石, 何继善, 颜良, 陈儒军, 授权号:ZL200610031297.3.
›多功能电法勘探信号发生器 ZL200610032162.9,刘石, 颜良, 何继善, 罗维炳, 陈儒军, 授权号:ZL200610032162.9.
›多功能电法勘探信号发送机控制器 ZL200610032163.3,刘石, 颜良, 何继善, 罗维炳, 陈儒军. 申请日期:2006-10-18, 授权号:ZL200610032163.3.


›First Prize of China Nonferrous Metals Industry Science and Technology Award(Research and Application of Key Technology of Array Spread Spectrum IP Method),2021-12-31
›Outstanding instructor, the 2nd Scientific Papers Conference of Institute of Geophysical Exploration, School of Information Physics Engineering, Central South University,2009-08-08
›The first prize of China's non-ferrous metal industry science and technology, dual-frequency induced polarization technology and demonstration research on special landforms in western China,2007-08-08
›The third prize of China Coal Industry Science and Technology Award, FDG-A explosion-proof multifunctional high-density electrical detection system,2007-08-08
›The third prize of Hunan Province Natural Science Excellent Academic Paper, the data acquisition software of the ocean-bottom magnetotelluric instrument,2004-08-08
›The first prize of China Nonferrous Metals Industry Science and Technology Award, the theory and application of uniform broad-spectrum pseudo-random electromagnetic method,2002-08-08
›The second prize of Hunan Science and Technology Progress Award, research on pseudo-random electromagnetic method and its multifunctional instrument,2002-08-08

Geophysical instrumentation
Geophysical signal processing
Rock physics
Geophysical prospecting
Intelligent Geophysics

Major : Earth Exploration and Information Technology
Doctoral Degree in PhilosophyMajor : Earth Exploration and Information Technology
Master's Degree in ScienceMajor : Applied Geophysics
Bachelor's Degree in Science
Central South University › School of Geosciene and Info-Physics › Associate Professor › Teaching and scientific research related to geophysical instruments and signal processing
China National Petroleum Corporation and Central South University › Postdoctoral Research Station of BGP, CNPC, and Postdoctoral Mobile Station of Computer Science and Technology, Central South University › Postdoc › Finished › Research on electromagnetic systems for direct oil and gas detection, tutors Professor Cai Zixing and Professor He Zhanxiang (the chief engineer of the Comprehensive Geophysical and Geochemical Exploration Division of BGP, CNPC)
Central South University › Control Science and Engineering Postdoctoral Mobile Station › Postdoc › Finished › Research on intelligent pseudo-random multi-frequency electromagnetic observation system, tutor Professor Cai Zixing
Central South University › School of Info-Physics Engineering › lecturer

IEEE Access,Reviewer
Geophysical Journal International,Reviewer
Journal of Geophysical Research – Solid Earth,Reviewer
GEOPHYSICS,Reviewer
IEEE Transactions on Instrumentation and Measurement,Reviewer
Chinese Journal of Geophysics- Chinese Edition,Reviewer
Journal of Asian Earth Sciences,Reviewer
Geoscientific Instrumentation, Methods and Data Systems (GI), Reviewer
Journal of Environmental & Engineering Geophysics,Reviewer
Journal of Applied Geophysics,Reviewer
Member, Professional Committee of Geophysical Technology, Chinese Geophysical Society
Journal of Central South University,Reviewer
I2MTC (International Instrumentation and Measurement Conference), member of technical committee, reviewer

Name of Research Group: AIoT Laboratory for Geology and Geophysics
Description of Research Group: Research the application of artificial intelligence and the Internet of Things (AIoT) in geology & geophysics, including geophysical instruments, geophysical signal processing, rock physics, geophysical exploration, and geophysical monitoring.

Lanfang He

Ning Qiu

淳少恒

Chunming Liu

Zhenwei Guo

Hongchun Yao

申瑞杰

陈思文

Lubang Jacob Peter

Pitiya REGEAN Pu(潘仁普)

法礼 Farid Ullah

古巴拉 (Hanaa Gamal)

Ijaz Ahmed

Jamal (贾马尔)

Jawad Ahmad

Shah Fahad

Peng Xin

Liu Fenghai

Liu Jin

Haziq Khan Muhamamd

Osama Abdul-Rahim

Shenglan Hou

Enhua Jiang

Feifei Wang

Zhitong Liu

Hao Yan

Li Shengjie

Wang Zihui

Chen Xingsheng

Wang Xiaojie

›法礼 Farid Ullah
›古巴拉 (Hanaa Gamal)
›Ijaz Ahmed
›Jamal (贾马尔)
›Jawad Ahmad
›Shah Fahad
›彭鑫
›刘峰海
›刘瑨
›Haziq Khan Muhamamd
›Osama Abdul-Rahim
›Pitiya REGEAN Pu(潘仁普)
›Lubang Jacob Peter
›王飞飞/碳化硅电源,地球探测与信息技术
›侯胜蓝/AIoT瞬变电磁,地球探测与信息技术
›蒋恩华/智能信号处理,地球探测与信息技术
›殷昊/瞬变电磁采集,地球探测与信息技术
›刘志同/瞬变电磁软件,地球探测与信息技术
›Wang Zihui@NB-IoT Internet of Things,Earth Exploration and Information Technology
›Li Shengjie@Broadband Acquisition,Earth Exploration and Information Technology
›陈兴生/DDS信号源,地球探测与信息技术
›王小杰/手机APP,地球探测与信息技术
›邢润林/大深度ERT,地球探测与信息技术
›严超/精密测量,地球探测与信息技术
›吴曦林/电磁信号测控,地球探测与信息技术
›何馨/岩石物理SIP,地球探测与信息技术
›严发宝/FEM仪器,地球探测与信息技术
›宋杰/嵌入式系统
›淳少恒/SIP采集与同步,地球探测与信息技术
›向毕文/SIP电磁耦合,地球探测与信息技术
›崔宇/岩石物理机理,地球探测与信息技术
›姚红春/SIP采集3D,地球探测与信息技术
›邓华/动态电源管理,地球探测与信息技术
›申瑞杰/SIP硬件3D,地球探测与信息技术
›卢祥弘/GPS同步,地球探测与信息技术
›仇洁婷/嵌入式系统,地球探测与信息技术
›颜良/精密测量,地球探测与信息技术
›Liu Shi@High-power transmitter,Earth Exploration and Information Technology