陈海嵩 - 中南大学

个人简介

研究领域

环境法基础理论、生态文明制度建设、风险治理与政府规制、水资源法律与政策

近期论文

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[1].雾霾应急的中国实践与环境法理:法学研究,2016年(第4期) [2].Some developments and new insights of environmental problems and deep mining strategy for cleaner production in mines:Journal of Cleaner Production [3].Quantitative evaluation and case studies of cleaner mining with multiple indexes considering uncertainty factors for phosphorus mines:Journal of Cleaner Production [4].Collaborative localization method using analytical and iterative solutions for microseismic/acoustic emission sources in the rockmass structure for underground mining:Engineering Fracture Mechanics, 2018 [5].Discriminant models of blasts and seismic events in mine seismology:Journal of Rock Mechanics and Mining Sciences [6].Discrimination of Mine Seismic Events and Blasts Using the Fisher Classifier, Naive Bayesian Classifier and Logistic Regression:Rock Mechanics and Rock Engineering [7].Time-lapse seismic tomography of an underground mining zone:Journal of Rock Mechanics and Mining Science [8].An Improved P-Phase Arrival Picking Method S/L-K-A with an Application to the Yongshaba Mine in China:Pure & Applied Geophysics [9].Enhancing micro-seismic P-phase arrival picking: EMD-cosine function-based denoising with an application to the AIC picker:Journal of Applied Geophysics [10].Discrimination of seismic sources in an underground mine using full waveform inversion:Journal of Rock Mechanics and Mining Sciences [11].Influence of Early Age on the Wave Velocity and Dynamic Compressive Strength of Concrete Based on Split Hopkinson Pressure Bar Tests:Shock and Vibration [12].Quantitative evaluation and case study of risk degree for underground goafs with multiple indexes considering uncertain factors in mines:Geofluids [13].Early-Warning System with Quasi-Distributed Fiber Optic Sensor Networks and Cloud Computing for Soil Slopes:IEEE Access [14].K-Means Cluster for Seismicity Partitioning and Geological Structure Interpretation, with Application to the Yongshaba Mine (China):Shock and Vibration [15].A multi-step source localization method with narrowing velocity interval of cyber-physical systems in buildings:IEEE Access [16].Pre-alarm system based on real-time monitoring and numerical simulation using internet of things and cloud computing for tailings dam in mines:IEEE Access [17].Interval non-probabilistic reliability of a surrounding jointed rockmass in underground engineering: a case study:IEEE Access [18].Theoretical and experimental studies of localization methodology for AE and microseismic sources without pre-measured wave velocity in mines:IEEE Access [19].Theoretical and Case Studies of Interval Nonprobabilistic Reliability for Tailing Dam Stability:Geofluids [20].Three dimensional comprehensive analytical solutions for locating sources of sensor networks in unknown velocity mining system:IEEE Access [21].Locating single-point sources from arrival times containing large picking errors (LPEs): the virtual field optimization method (VFOM):Scientific Reports [22].Identifying P-phase arrivals with noise: An improved Kurtosis method based on DWT and STA/LTA,:Journal of Applied Geophysics [23].Three-dimensional analytical solution of acoustic emission source location for cuboid monitoring network without pre-measured wave velocity.China:Transactions of Nonferrous Metals Society [24].Classification of mine blasts and microseismic events using starting-up features in seismograms.China:Transactions of Nonferrous Metals Society [25].Mechanical Characteristics for Rocks under Different Paths and Unloading Rates under Confining Pressures:Shock and Vibration [26].A Comparison of Mine Seismic Discriminators Based on Features of Source Parameters to Waveform Characteristics:Shock and Vibration [27].Nonlinear Methodologies for Identifying Seismic Event and Nuclear Explosion Using Random Forest, Support Vector Machine, and Naive Bayes Classification:Abstract and Applied Analysis [28].An Analytical Solution for Acoustic Emission Source Location for Known P Wave Velocity System:Mathematical Problems in Engineering [29].An efficient closed-form solution for acoustic emission source location in three-dimensional structures:AIP Advances [30].A Microseismic/Acoustic Emission Source Location Method Using Arrival Times of PS Waves for Unknown Velocity System:Journal of Distributed Sensor Networks [31].Comprehensive Models for Evaluating Rockmass Stability Based on Statistical Comparisons of Multiple Classifiers:Mathematical Problems in Engineering [32].Prediction of rockburst classification using Random Forest.China:Transactions of Nonferrous Metals Society [33].Three-dimensional analytical solution of acoustic emission or microseismic source location under cube monitoring network.China:Transactions of Nonferrous Metals Society [34].Effects of sonic speed on location accuracy of acoustic emission source in rocks.China:Transactions of Nonferrous Metals Society [35].Comparison of Two Methods in Acoustic Emission Source Location Using Four Sensors Without Measuring Sonic Speed:Sensor Letters

学术兼职

兼任中国卫生法研究会常务理事；南京信息工程大学客座教授、江西理工大学文法学院兼职硕士生导师。