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个人信息Personal Information
副教授 硕士生导师
性别:男
毕业院校:山东大学
学历:研究生(博士后)
学位:工学博士学位
在职信息:在职
所在单位:电气工程学院
入职时间:2013-07-22
学科:电力系统及其自动化
联系方式:邮箱:wangmx@sdu.edu.cn 微信:wmx_sduetc
扫描关注
- [1] 赵元春. Bayesian Network Based Imprecise Probability Estimation Method for Wind Power Ramp Events. Journal of Modern Power Systems and Clean Energy , 9, 1510, 2021.
- [2] 王志欣. 考虑风电备用可靠性的电力系统备用优化. 《电力系统自动化》, 47, 2023.
- [3] 王明强. A Practical Feeder Planning Model for Urban Distribution System. IEEE Transactions on Power Systems , 38, 2023.
- [4] 辛伟辰. DLR-based Assessment of Wind Power Acceptable Capacity. 2023.
- [5] 吴小龙. An Efficient Model of Hybrid AC/DC Grid Power Flow based on the Simplified VSC Station Model. 2023.
- [6] 王孟夏. Prediction of Intra-Period Minimum Thermal Rating of Overhead Conductors. IEEE Transactions on Power Delivery, 38, 564, 2023.
- [7] 姚林渭. Prediction of the Thermal Rating of Overhead Conductor Based on Empirical Mode Decomposition-Sample Entropy and Quantile Regression Forest. 2023.
- [8] 王志欣. 考虑风电备用可靠性的电力系统备用优化. 电力系统及其自动化, 47, 1-9, 2023.
- [9] 胡宇曦. Economic dispatch of active distribution network considering admissible region of net load based on new injection shift factors. 电力与能源系统国际期刊, 145, 2023.
- [10] 陈全. 用于最小开机数判定的经典非合作博弈潮流分布模型. 《电力系统自动化》, 44, 2020.
- [11] 陈全. 用于最小开机数判定的经典非合作博弈潮流分布模型. 电力系统及其自动化, 44, 111-118, 2020.
- [12] 陈全. Power Flow Distribution Model Based on Classical Non-cooperative Game for Determining Minimum Generator Number 用于最小开机数判定的经典非合作博弈潮流分布模型. 电力系统及其自动化, 44, 111-118, 2020.
- [13] 胡宇曦. Economic Dispatch of Active Distribution Network Considering Admissible Region of Net Load Based on New Injection Shift Factors. International Journal of Electrical Power and Energy Systems, 2023.
- [14] 王明强. A Practical Feeder Planning Model for Urban Distribution System. IEEE Transactions on Power Systems , 2023.
- [15] 康奇豹. Analyses and Judgment Methods of Single-Phase Broken-Line Fault for Loaded Distribution Line. 2016 IEEE PES Asia-Pacific Power and Energy Conference, 2016.
- [16] 王海天. Probability Prediction of Short-term Allowable Carrying Capacity of Overhead Conductors. 1586-1591, 2022.
- [17] 王势豪. Thermal Rating Prediction with Improved Prediction Input. 1592-1597, 2022.
- [18] 尹贻民. Current-carrying Capacity Calculation Based on Mechanical States Measurement of Overhead Line. 1580-1585, 2022.
- [19] 王孟夏. Probabilistic power flow calculation considering electro-thermo-mechanical dynamics of overhead conductor. 电力与能源系统国际期刊, 143, 2022.
- [20] 王孟夏. Online assessment of allowable temperature rise time of overhead conductor after a step change of current in the operating environment. Energy Reports, 8, 332-339, 2022.