姓名:张桢滨
出生年月: 1984年
职称: 教授/博导
职务: 可再生能源与智能电网研究所所长、 MPEES实验室主任
Email: zbz@sdu.edu.cn
电话: 0531-88392002
系所与团队:
可再生能源与智能电网研究所
“大功率电能变换与海工装备系统”团队
电力电子化能源系统实验室(MPEES)
学术身份:
教授/博导、国家重点研发计划首席青年科学家、中组部高水平海外青年人才、泰山学者特聘专家、山东省杰青、山东大学杰出中青年学者;IET Fellow、IEEE Senior Member、IET Chatered Engineer、Associate Editor of IEEE Trans. Ind. Electron.(18-21)、Associate Editor of IEEE Trans. Power Electron.(21-今)、济南市创新领军人才(B类);现为中国电工技术学会电力电子专委会理事、电源学会变频电源与电力传动专委会、青工委、交通电气化等多个专委会常务委员;是德国、波兰自然科学基金评委;曾任第六届IEEE电力电子与电能变换系统预测控制国际会议大会主席、第二十届IEEE工业电子与应用国际会议大会主席,及多个国际学术会议程序委员会主席、组委会主席等。
主要工作经历:
2011-2016:慕尼黑工业大学,博士(summa cum laude)
2016-2017:慕尼黑工业大学,博后研究员/Group Leader(VDE-Award)
2017-今:山东大学,教授/博导、海外联络教授
2023-2024:剑桥大学,高级访问学者
2024-今:慕尼黑工业大学,客座教授/博导
研究方向:
大功率电能变换预测控制及预测性运维:
①海洋风电及大功率电驱,
②智能微电网系统与储能,
③电能变换系统预测性运维。
学术著作:
在国际知名期刊与会议上发表SCI/EI收录论文270余篇,SCI(JCR-Q1)论文90余篇;获授权发明专利71件。应邀做IEEE等国际会议主旨报告(Keynote Speak)、特邀报告(Plenary Presentation)、专题报告(Invited Talk)30余次、专题讲座(Tutorial)14次;获省部级科技奖项3次、中国及德国一级学会科技进步及人物奖5次,获山东省教学比赛二等奖,获SCI期刊、国际会议最优论文及报告奖励27次等。
近期的部分期刊论文如下:
[1]H. He, Z. Zhang*, et al., “An Efficient Predictive Control for Cascaded H-Bridge Static Var Generator”,
IEEE Transactions on Industrial Electronics, in press.
(SCI Q1, IF: 7.250).
[2]G. Chen, Z. Zhang*, “A Very Simple and Extremely Efficient Predictive Control for Power Converters”,
IEEE Transactions on Industrial Electronics, in press.
(SCI Q1, IF: 7.250).
[3]H. Li, Z. Zhang*, “Nolinear Analysis and a Stability Improvement Method for GFL Power Converters”,
IEEE Transactions on Industrial Electronics, in press.
(SCI Q1, IF: 7.250).
[4]Y. Yin, Z. Zhang*, G. Chen, “A Simple and Efficient Direct Predictive Control Framework for Multi-Parallel Power Converters”,
IEEE Transactions on Industrial Electronics, in press.
(SCI Q1, IF: 7.250).
[5]Y. Yin, G. Chen, Z. Zhang*, “A Segmentation-and-Filtering-Based Predictive Control for High-Power Converters with Ultra-Low and Regulated Switching Frequencies”,
IEEE Transactions on Industrial Electronics, 2025.
(SCI Q1, IF: 7.250).
[6]G. Chen, Z. Zhang*, Y. Zhang, et al., “A Robust Harmonic Programmed Predictive Control for Medium Voltage Energy Conversion”,
IEEE Transactions on Industrial Electronics, 2025.
(SCI Q1, IF: 7.250).
[7]F. Wang, F. Cai, D. Huang, Y. Wei, D. Ke, Z. Zhang, “Multi-objective Model Predictive Control of LCL Grid-Connected Inverter Based on an Improved Grey Wolf Algorithm”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[8]D. Kong, Y. Sun, Z. Zhang*, et al., “Integrated Model Predictive Control of Double-Stage Solid-State Transformers With Dynamic Reference”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[9]O. Babayomi, Y. Li, Z. Zhang*, et al., “Advanced Control of Grid-Connected Microgrids: Challenges, Advances, and Trends”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[10]Z. Chen, Z. Li, S. Huang, X. Sun, X. Zhu, Z. Zhang, “A Fast and Reliable Start-up Strategy for Three-Phase DAB Power Converters”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[11]L. Liu, Z. Zhang*, Y. Zhao, et al., “Data-Driven Model-Free Adaptive Control for Power Converter Under Multiscenarios in Microgrids”,
IEEE Transactions on Industrial Electronics, 2025.
(SCI Q1, IF: 7.250).
[12]Z. Zhang*, G. Chen, D. Xu, “Harmonic Programmed Modulation for High-Power Energy Conversion: Principles, Realizations, and a Unified Tailorable Solution”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[13]J. Qiu, Z. Li, H. Li, S. Zhou, Z. Zhang, “A Unified and Enhanced Hybrid Flux Observer for Encoderless Control of AC Motors”,
IEEE Transactions on Industrial Electronics, 2025.
(SCI Q1, IF: 7.250).
[14]Z. Zhang*, S. Zhou, H. Li, et al., “A Novel Demodulation for Pulsating Carrier Voltage Injection-Based Encoderless Control”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[15]D. Kong, S. Li, C. Liu, Z. Zhang, et al., “Model-Free Predictive Control Based on Data-Driven for Fast and Accurate Power Allocation in Solid-State DC Transformers”,
IEEE Transactions on Power Electronics, 2025.
(SCI Q1, IF: 6.464).
[16]F. Lin, T. Qie, Y. Liu, Z. Zhang, et al., “A Novel Adaptive Model Predictive Current Control for Three-level Neural-Point-Clamped Inverter with RL Load”,
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2025.
(SCI Q1, IF: 4.499).
[17]Y. Sun, D. Kong, Z. Zhang*, et al., “Consensus-Based Distributed Control of Offshore Wind Farms Connected via DR-HVDC”,
IEEE Transactions on Industrial Electronics, 2025.
(SCI Q1, IF: 7.250).
[18]D. Kong, Y. Wang, Z. Zhang*, et al., “Transient DC Offset Mitigation for Dual Active Bridge Converters Based on Model Predictive Control With Optimized Dynamic Performance”,
IEEE Transactions on Industrial Electronics, 2025.
(SCI Q1, IF: 7.250).
[19]Y. Sun, D. Kong, Z. Zhang*, et al., “Decoupled Distributed Control of Offshore Wind Farms Connected to DR-HVDC Based on Novel Adaptive Virtual Impedance”,
IEEE Transactions on Power Electronics, 2024.
(SCI Q1, IF: 6.464).
[20]Y. Li, J. Gao, Z. Zhang*, et al., “Finite Control Set Model Predictive Control for Grid-Connected Parallel Power Converters With Guaranteed Optimality”,
IEEE Transactions on Power Electronics, 2024.
(SCI Q1, IF: 6.464).
[21]D. Kong, S. Li, C. Liu, Z. Zhang, et al., “Adaptive Fast-Optimization Predictive Control of MMC with Improved Hybrid Control Framework”,
IEEE Transactions on Power Electronics, 2024.
(SCI Q1, IF: 6.464).
[22]Z. Zhang*, J. Li, Z. Li, et al., “Adaptive Fast-Optimization Predictive Control of MMC with Improved Hybrid Control Framework”,
IEEE Transactions on Industrial Electronics, 2024.
(SCI Q1, IF: 7.250).
[23]J. Zhang, Z. Zhang*, Z. Li, et al., “A Simple and Effective Predictive Power Control for Induction Motor Drives”,
IEEE Transactions on Power Electronics, 2024.
(SCI Q1, IF: 6.464).
[24]L. Liu, Y. Yin, Z. Zhang*, et al., “Multidisturbances Compensation for Three-Level NPC Converters in Microgrids: A Robust Adaptive Sliding Mode Control Approach”,
IEEE Transactions on Industrial Electronics, 2024.
(SCI Q1, IF: 7.250).
[25]O. Babayomi, Z. Zhang*, Z. Li, et al., “Robust Predictive Control of Grid-Connected Converters: Sensor Noise Suppression With Parallel-Cascade Extended State Observer”,
IEEE Transactions on Industrial Electronics, 2024.
(SCI Q1, IF: 7.250, highly cited paper: citation number till Sep. 2024: 12 according to Google Scholar).
[26]O. Babayomi, Z. Zhang*, Z. Li, et al., “Bidirectional DC-DC converters for distributed energy resources: Robust predictive control with structurally-adaptive extended state observers”,
International Journal of Electrical Power & Energy Systems, 2024.
(SCI Q1, IF: 4.832).
[27]Y. Li, J. Gao, Z. Zhang, et al., “Model-Based and Model-Free Predictive Active Damping for LCL-Type Active-Front-End Rectifiers”,
IEEE Transactions on Industrial Electronics, 2024.
(SCI Q1, IF: 7.250).
[28]Z. Dong, Q. Chen, Z. Zhang, et al., “Noise Tolerance Strategy Based on Virtual Capacitor for DC–DC Converters With Continuous Control Set Model Predictive Control”,
IEEE Transactions on Power Electronics, 2024.
(SCI Q1, IF: 6.464).
[29]Y. Fang, Y. Liu, Z. Zhang, et al., “Data-Driven Control for Modular Multilevel Converters Based on Model-Free Adaptive Control with an Event-Triggered Scheme”,
Electronics, 2024.
(SCI, IF: 2.546).
[30]Z. Zhang*, H. Li, S. Zhou, et al., “An Effective Adaptive-Observer Based Wide Range Encoderless Control for PMSM Drives”,
IEEE Transactions on Industrial Electronics, 2023.
(SCI Q1, IF: 7.250).
[31]L. Liu, Z. Zhang*, Y. Yin, et al., “An Efficient Robust Power-Voltage Control for Three-Level NPC Converters in Microgrids”,
IEEE Transactions on Industrial Informatics, 2023.
(SCI Q1, IF: 11.180).
[32]O. Babayomi, Z. Zhang*, et al., “Model-Free Predictive Control of DC–DC Boost Converters: Sensor Noise Suppression with Hybrid Extended State Observers”,
IEEE Transactions on Power Electronics, 2023.
(SCI Q1, IF: 6.464).
[33]S. Zhou, Z. Zhang*, H. Li, Z. Li, Q. Xing, X. Liu, F. Wang, J. Rodriguez, "A Robust Encoderless Control for PMSM Drives: A Revised Hybrid Active Flux-Based Technique",
IEEE Transactions on Power Electronics, 2023.
(SCI Q1, IF: 6.464).
[34]X. Liu, Z. Zhang*, M. Han, Z. Li, Y. Yin, Z. Dong, J. Wang, "A Simple and Fast Start-up Strategy for Dual Active Bridge Converters with DC Bias Suppression",
IEEE Transactions on Power Electronics, 2023.
(SCI Q1, IF: 6.464).
[35]X. Yu, D. Ke, Z. Zhang, F. Wang, J. Rodriguez, "Robust Exploration Based Finite Control Set Predictive Current Control for SPMSM Drives Under Influence of Measurement Error",
IEEE Transactions on Energy Conversion, 2023.
(SCI Q1, IF: 4.691).
[36]L. Liu, Z. Zhang*, Y. Yin, Y. Li, H. Xie, M. Zhang, Y. Zhao, R. Kennel, "A Robust High-Quality Current Control with Fast Convergence for Three-Level NPC Converters in Micro-Energy Systems",
IEEE Transactions on Industrial Informatics, 2023.
(SCI Q1, IF: 11.180).
[37]O. Babayomi, Z. Zhang*, "Model-Free Predictive Control of Power Converters with Multifrequency Extended State Observers",
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[38]C. Hu, Z. Yin, T. Rui, Z. Zhang, W. Shen, W. Cao, D. Holmes, "A Novel Double-Voltage-Vector Model-Free Predictive Current Control Method for Two-Level Voltage Source Inverters",
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[39]H. Kawai, Z. Zhang, R. Kennel, S. Doki, "Direct Speed Control Based on Finite Control Set Model Predictive Control With Voltage Smoother",
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[40]H. Chen, Z. Zhang*, Z. Li, P. Karamanakos, J. Rodriguez, “Digital Twin Techniques for Power Electronics-Based Energy Conversion Systems: A Survey of Concepts, Application Scenarios, Future Challenges, and Trends”,
IEEE Industrial Electronics Magazine, 2022.
(SCI Q1, IF: 5.570).
[41]Q. Xing, Z. Zhang*, Z. Li, X. Liu, Y. Li, Y. Zhang, T. Dragicevic, J. Rodriguez “Bias-Free Predictive Control of Power Converters with LCL-Filter in Micro-Energy Systems”,
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[42]Z. Zhang*, Z. Li, M. Kazmierkowski, J. Rodriguez, R. Kennel, “Robust Predictive Control of Three-Level NPC Back-to-Back Power Converter PMSG Wind Turbine Systems with Revised Predictions”,
IEEE Transactions on Power Electronics, 2018.
(SCI Q1, IF: 6.464).
[43]J. Rodriguez, C. Garcia, A. Mora, F. Flores-Bahamonde, P. Acuna, M. Novak, Y. Zhang, L. Tarisciotti, S. A. Davari, Z. Zhang, F. Wang, M. Norambuena, T. Dragicevic, F. Blaabjerg, T. Geyer, R. Kennel, D. Arab Khaburi, M. Abdelrahem, Z. Zhang, N. Mijatovic, R. P. Aguilera, “Latest Advances of Model Predictive Control in Electrical Drives—Part I: Basic Concepts and Advanced Strategies”,
IEEE Transactions on Power Electronics, 2022.
(SCI Q1, IF: 6.464, highly cited paper: citation number till Sep. 2024: 276 according to Google Scholar).
[44]J. Rodriguez, C. Garcia, A. Mora, A. Davari, J. Rodas, D. Fernando Valencia Garcia, M. Fouad Elmorshedy, F. Wang, K. Zuo, L. Tarisciotti, F. Flores-Bahamonde, W. Xu, Z. Zhang, Y. Zhang, M. Norambuena, A. Emadi, T. Geyer, R. Kennel, T. Dragicevic, D. Arab Khaburi, Z. Zhang, M. Abdelrahem, N. Mijatovic, “Latest Advances of Model Predictive Control in Electrical Drives—Part II: Applications and Benchmarking with Classical Control Methods”,
IEEE Transactions on Power Electronics, 2022.
(SCI Q1, IF: 6.464, highly cited paper: citation number till Sep. 2024: 198 according to Google Scholar).
[45]Z. Zhang*, O. Babayomi, T. Dragicevic, R. Heydari, C. Garcia, J. Rodriguez, R. Kennel, “Advances and Opportunities in the Model Predictive Control of Microgrids: Part I – Primary Layer”,
International Journal of Electrical Power & Energy Systems, 2021.
(SCI Q1, IF: 4.832).
[46]Z. Zhang*, H. Fang, F. Gao, J. Rodriguez, R. Kennel, “Multiple Vector Model Predictive Power Control for Grid-Tied Wind Turbine System with Enhanced Steady State Control Performances”,
IEEE Transactions on Industrial Electronics, 2017.
(SCI Q1, IF: 7.250).
[47]M. Zhang, Z. Zhang*, Z. Li, H. Chen, D. Zhou “A Unified Open-Circuit-Fault Diagnosis Method for Three-Level Neutral-Point-Clamped Power Converters”,
IEEE Transactions on Power Electronics, 2022.
(SCI Q1, IF: 6.464).
[48]O. Babayomi, Z. Zhang*, “Model-Free Predictive Control of Power Converters with Multi-Frequency Extended State Observers”,
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[49]O. Babayomi, Z. Zhang*, T. Dragicevic, J. Hu, J. Rodriguez “Smart Grid Evolution: Predictive Control of Distributed Energy Resources—A review”,
International Journal of Electrical Power & Energy Systems, 2022.
(SCI Q1, IF: 4.832).
[50]O. Babayomi, Y. Li, Z. Zhang* “Distributed Consensus-Based Reactive Power Sharing in Microgrids: A Predictive Virtual Capacitance Control Technique”,
International Journal of Electrical Power & Energy Systems, 2022.
(SCI Q1, IF: 4.832).
[51]O. Babayomi, D.Dah, Z. Zhang, “Affordable Clean Energy Transition in Developing Countries: Pathways and Technologies”,
iScience, 2022.
(SCI Q2, IF: 4.512).
[52]O. Babayomi, J. Rodriguez, Z. Zhang, “Shandong University Delivers Sixth IEEE PRECEDE as Cutting-Edge Hybrid Conference [Society News]”,
IEEE Power Electronics Magazine, 2022.
[53]Y. Li, H. He, Z. Li, Z. Zhang*, “Predictive Zero-Sequence Current Control of Multiple Paralleled Power Converters”,
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[54]J. Wang, L. Chen, Z. Liu, Z. Zhang*, X. Zhang, “Optimized Parameter Design of the Dual-Loop Control for Grid-Forming VSCs With LC Filters”,
IEEE Transactions on Industry Applications, 2022.
(SCI Q2, IF: 4.030).
[55]M. Zhang, Z. Zhang*, Z. Li, J. Wang, Y. Zhang, S. Liu “A Simple and Effective Open-Circuit-Fault Diagnosis Method for Grid-Tied Power Converters–A New Technique Based on Tellegen’s Theorem”,
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2022.
(SCI Q1, IF: 4.499).
[56]O. Babayomi, Z. Zhang* “Model-Free Predictive Control of Power Converters with Cascade-Parallel Extended State Observers”,
IEEE Transactions on Industrial Electronics, 2022.
(SCI Q1, IF: 7.250).
[57]O. Babayomi, Z. Zhang*, T. Dragicevic, R. Heydari, C. Garcia, J. Rodriguez, R. Kennel, “Advances and Opportunities in the Model Predictive Control of Microgrids: Part II – Secondary and Tertiary Layers”
International Journal of Electrical Power & Energy Systems, 2021.
(SCI Q1, IF: 4.832).
[58]C. Garcia, M. Mohammadinodoushan, V. Yaramasu, M. Norambuena, S. A. Davari, Z. Zhang, D. A. Khaburi, J. Rodriguez, “FCS-MPC Based Pre-Filtering Stage for Computational Efficiency in a Flying Capacitor Converter”,
IEEE Access, 2021.
(SCI Q2, IF: 3.282).
[59]O. Babayomi, Z. Zhang*, Y. Li, R. Kennel, “Adaptive Predictive Control with Neuro-Fuzzy Parameter Estimation for Microgrid Grid-Forming Converters”,
Sustainability, 2021.
(SCI Q2, IF: 3.212).
[60]F. Grimm, P. Kolahian, Z. Zhang, M. Baghdadi, “A Sphere Decoding Algorithm for Multistep Sequential Model Predictive Control”,
IEEE Transactions on Industry Applications, 2021.
(SCI Q2, IF: 4.030).
[61]Y. Li, Z. Zhang*, T. Dragicevic, J. Rodriguez, “A Unified Distributed Cooperative Control of DC Microgrids Using Consensus Protocol”,
IEEE Transactions on Smart Grid, 2021.
(SCI Q1, IF: 8.440).
[62]O. Babayomi, Z. Li, Z. Zhang*, “Distributed Secondary Frequency and Voltage Control of Parallel-Connected VSCs in Microgrids: A Predictive VSG-Based Solution”,
CPSS Transactions on Power Electronics and Applications, 2021.
(EI).
[63]C. Ma, H. Li, X. Yao, Z. Zhang, F. De Belie, “An Improved Model-Free Predictive Current Control with Advanced Current Gradient Updating Mechanism”,
IEEE Transactions on Industrial Electronics, 2021.
(SCI Q1, IF: 7.250).
[64]Z. Dong, Z. Li, X. L. Li, C. K. Tse, Z. Zhang, “Single-Inductor Multiple-Input Multiple-Output Converter with Common Ground, High Scalability and No Cross Regulation”,
IEEE Transactions on Power Electronics, 2021.
(SCI Q1, IF: 6.464).
[65]Y. Li, Z. Zhang*, C. Hu, R. Kennel, J. Rodriguez, “A Full State-Variable Direct Predictive Control for Islanded Microgrids with Parallel Converters”,
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2021.
(SCI Q1, IF: 4.499).
[66]Y. Li, H. Guo, C. Ping, X. Wang, Z. Zhang*, “A Full-State Variable Predictive Torque Control of Current Source Converter Fed Permanent Magnet Synchronous Motor Drives”,
Transactions of China Electrotechnical Society, 2021.
(EI).
[67]Y. Sun, Z. Zhang*, Y. Zhang, Y. Li, Z. Li, “A Time-Domain Virtual-Flux Based Predictive Control of Modular Multilevel Converters for Offshore Wind Energy Integration”,
IEEE Transactions on Energy Conversion, 2021.
(SCI Q1, IF: 4.691).
[68]Y. Sun, Z. Zhang*, Z. Li, J. Rodriguez, “Robust Predictive Control of Grid-Tied Modular Multilevel Converters with Virtual-Flux Based Online Inductance Estimation”,
IEEE Transactions on Power Delivery, 2021.
(SCI Q1, IF: 3.670).
[69]H. Kawai, Z. Zhang, R. Kennel, “Finite Control Set Model-Predictive Speed Control with a Load Torque Compensation”,
IEEJ Transactions on Electrical and Electronic Engineering, 2020.
(SCI Q1, IF: 0.980).
[70]C. Zheng, T. Dragicevic, Z. Zhang, J. Rodriguez, F. Blaabjerg, “Model Predictive Control of LC-Filtered Voltage Source Inverters with Optimal Switching Sequence”,
IEEE Transactions on Power Electronics, 2020.
(SCI Q1, IF: 6.464).
[71]J. Wang, Y. Tang, Y. Qi, P. Lin, Z. Zhang, “A Unified Startup Strategy for Modular Multilevel Converters with Deadbeat Predictive Current Control”,
IEEE Transactions on Industrial Electronics, 2020.
(SCI Q1, IF: 7.250).
[72]Z. Dong, X. Li, C. Tse, Z. Zhang, “Derivation of Single-Input Dual-Output Converters With Simple Control and No Cross Regulation”,
IEEE Transactions on Power Electronics, 2020.
(SCI Q1, IF: 6.464).
[73]Y. Li, Z. Zhang, K. Li, P. Zhang, F. Gao, “Predictive Current Control for Voltage Source Inverters Considering Dead Time Effect”,
CES TEMS, 2020.
(EI).
[74]C. Liu, D. Kong, Z. Zhang, Z. Pei, R. Kennel, “Single-stage Control System of I-MMC-based Island MVDC Link Receiver with Multiple Modulation Freedoms”,
IEEE Access, 2020.
(SCI Q2, IF: 3.282).
[75]L. Yan, F. Wang, M. Dou, Z. Zhang, “Active Disturbance Rejection-Based Speed Control in Model Predictive Control for Induction Machines”,
IEEE Transactions on Industrial Electronics, 2020.
(SCI Q1, IF: 7.250).
[76]X. Gao, M. Abdelrahem, C. Hackl, Z. Zhang, R. Kennel, “Direct Predictive Speed Control with a Sliding Manifold Term for PMSM Drives”,
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2019.
(SCI Q1, IF: 4.499).
[77]C. Liu, C. Liu, G. Cai, H. Ying, Z. Zhang, “An Isolated Modular Multilevel Converter (I-M2C) Topology based on High-Frequency Link (HFL) Concept”,
IEEE Transactions on Power Electronics, 2019.
(SCI Q1, IF: 6.464).
[78]M. Norambuena, J. Rodriguez, Z. Zhang, F. Wang, C. Garcia, R. Kennel, “A Very Simple Strategy for High Quality Performance of AC Machines Using Model Predictive Control”,
IEEE Transactions on Power Electronics, 2018.
(SCI Q1, IF: 6.464).
[79]Z. Zhang, F. Wang, J. Wang, J. Rodriguez, R. Kennel, “Nonlinear Direct Control for Three-Level NPC Back-to-Back Converter PMSG Wind Turbine Systems: Experimental Assessment with FPGA”,
IEEE Transactions on Industrial Informatics, 2017.
(SCI Q1, IF: 11.180).
[80]Z. Zhang*, J. Rodriguez, R. Kennel, “Advanced Control Strategies for Direct-Drive PMSG Wind Turbine Systems: Direct Predictive Torque Control Approaches”,
CPSS Transactions on Power Electronics and Applications, 2017.
(SCI, Invited paper).
[81]X. Cai, Z. Zhang*, R. Kennel, “Optimal control solutions for PMSM drives: a comparison study with experimental assessment”,
IEEE Journal of Emerging and Selected Topics in Power Electronics, 2017.
(SCI Q1, IF: 4.499).
[82]F. Wang, Z. Zhang*, J. Wang, R. Kennel, J. Rodriguez, “Sensorless model-based PCC for induction machine”,
IET Electric Power Applications, 2017.
(SCI Q3, IF: 2.568).
[83]X. Cai, H. Sun, Z. Zhang, R. Kennel, “An Optimal Fixed Gain Filter for Angular Motion”,
IEEE Transactions on Industrial Electronics, 2017.
(SCI Q1, IF: 7.250).
[84]A. Mohamed, C. Hackl, Z. Zhang, R. Kennel, J. Rodriguez, “Robust Predictive Control for Direct-Drive Surface-Mounted Permanent-Magnet Synchronous Generators Without Mechanical Sensors”,
IEEE Transactions on Energy Conversion, 2017.
(SCI Q1, IF: 4.691).
[85]Z. Zhang*, C. Hackl, R. Kennel, “Computationally Efficient DMPC for Three-level NPC Back-to-Back Converters in Wind Turbine Systems with PMSG”,
IEEE Transactions on Power Electronics, 2017.
(SCI Q1, IF: 6.464).
[86]Z. Zhang*, F. Wang, T. Sun, J. Rodriguez, R. Kennel, “FPGA Based Experimental Investigation of a Quasi-Centralized Model Predictive Control for Back-to-Back Converters”,
IEEE Transactions on Power Electronics, 2017.
(SCI Q1, IF: 6.464).
[87]Z. Zhang, T. Sun, F. Wang, J. Rodriguez, R. Kennel, “A Computationally-Efficient Quasi-Centralized DMPC for Back-to-Back Converter PMSG Wind Turbine Systems Without DC-link Tracking Errors”,
IEEE Transactions on Industrial Electronics, 2017.
(SCI Q1, IF: 7.250).
[88]X. Cai, Z. Zhang*, R. Kennel, “Improved Predictive Control of Three-level Neutral-Point-Clamped Power Converters with Decoupled Neutral-Point Voltage Balancing Control”,
IEEE Transactions on Industrial Informatics, 2016.
(SCI Q1, IF: 11.180).
[89]J. Wang, F. Wang, Z. Zhang, S. Li, R. Kennel, J. Rodriguez, “Design and Implementation of Disturbance Compensation-Based Enhanced Robust Finite Control Set Predictive Torque Control for Induction Motor Systems”,
IEEE Transactions on Industrial Informatics, 2016.
(SCI Q1, IF: 11.180).
[90]Z. Zhang, H. Xu, M. Xu, Z. Chen, T. Sun, R. Kennel, C. Hackl, “Predictive Control with Novel Virtual Flux Estimation for Back-to-Back Converters”,
IEEE Transactions on Industrial Electronics, 2015.
(SCI Q1, IF: 7.250).
[91]F. Wang, Z. Chen, Z. Zhang, R. Kennel, J. Rodriguez, “Finite Control Set Model Predictive Torque Control of Induction Machine with a Robust Adaptive Observer”,
IEEE Transactions on Industrial Electronics, 2015.
(SCI Q1, IF: 7.250).
[92]Z. Chen, F. Wang, G. Luo, Z. Zhang*, R. Kennel, “Secondary Saliency Tracking-Based Sensorless Control for Concentrated Winding SPMSM”,
IEEE Transactions on Industrial Informatics, 2015.
(SCI Q1, IF: 11.180).
[93]F. Wang, Z. Zhang*, A. Davari, R. Fotouhi, J. Rodriguez, R. Kennel, “An Encoderless Predictive Torque Control for an Induction Machine with a Revised Prediction Model and EFOSMO”,
IEEE Transactions on Industrial Electronics, 2014.
(SCI Q1, IF: 7.250).
[94]F. Wang, Z. Zhang, A. Davari, R. Kennel, “An experimental assessment of finite-state Predictive Torque Control for electrical drives by considering different online-optimization methods”,
Control Engineering Practice, 2014.
(SCI Q2, IF: 5.289).
[95]Z. Chen, J. Gao, F. Wang, Z. Ma, Z. Zhang, R. Kennel, “Sensorless Control for SPMSM With Concentrated Windings Using Multi-Signal Injection Method”,
IEEE Transactions on Industrial Electronics, 2014.
(SCI Q1, IF: 7.250),等。
主要科研项目:
[1]“十四五”国家重点研发计划(青年科学家):
“大功率低成本海上风电高效能量传变理论与控制技术”,23-27,主持。
[2]中组部“高水平海外人才”项目(优先资助):
“大功率新能源变流器与电驱系统预测控制”,19-23,主持。
[3]山东省杰青:
“海洋风电电能变换系统设计与控制”,23-26,主持。
[4]国家自然科学基金(面上):
“微能源系统高品质协同预测控制”,23-26,主持。
[5]国家自然科学基金(面上):
“大功率风电变流器级联结构高效模型预测控制”,20-23,主持。
[6]山东大学“齐鲁青年学者”建设项目:校内人才计划,17-22,主持。
[7]山东省重大科技创新工程:
“大功率海上直驱永磁同步风电变流器与控制关键技术”,19-21,主持。
[8]山东省自然科学基金:
“永磁同步风力发电三电平功率变流器及其预测控制策略研究”,19-21,主持。
[9]江苏省自然科学基金:
“永磁同步电机四象限驱动系统高可靠模型预测控制”,19-21,主持。
[10]深圳市基础研究专项:
“混联微能源系统互联变流器可靠控制关键理论与技术”,22-24,主持。
[11]深圳市面上基金:
“新能源并网变流器集群及智能控制关键理论与技术”,21-23,主持。
[12]山大国际合作基金:
“智慧能源与大功率能量变换”国际联合中心,20-24,主持。
[13]济南市高校20条:
“10兆瓦级海上风电系统及其先进控制”,22-24,主持。
另主持国家电网总部、中车山东风电和中国兵工集团等企业委托项目十余项。
招生类型:
教学科研型。
请有志攻读本人硕、博士研究生的同学,邮件联系并随附个人简历。
