Jinyu Wen focuses on Control theory, Electric power system, Wind power, Mathematical optimization and Control engineering. His Control theory research includes themes of Oscillation and Energy storage. His Electric power system research is multidisciplinary, incorporating elements of Time domain, Electronic engineering, AC power and Optimal control.
His Wind power study combines topics from a wide range of disciplines, such as Turbine, Wind speed, Inertial response and Transient. His Mathematical optimization research includes elements of Monte Carlo method and Random variable. His Control engineering study integrates concerns from other disciplines, such as Fuzzy number and Fuzzy logic.
His primary areas of investigation include Electric power system, Control theory, Wind power, Mathematical optimization and Control engineering. His work carried out in the field of Electric power system brings together such families of science as Electronic engineering, Electrical engineering, Robustness and Energy storage. His Control theory research incorporates themes from Fault and AC power, Voltage.
His Wind power research is multidisciplinary, relying on both Probability density function, Wind speed, Power optimizer, Automotive engineering and Monte Carlo method. His research integrates issues of Stochastic process and Energy management in his study of Mathematical optimization. His Control engineering research incorporates elements of Control system, Model predictive control and Nonlinear system.
The scientist’s investigation covers issues in Control theory, Electric power system, Wind power, Microgrid and Mathematical optimization. Jinyu Wen works in the field of Control theory, namely Control theory. Jinyu Wen combines subjects such as Feasible region, Model predictive control, Linearity, Energy storage and Induction generator with his study of Electric power system.
His Wind power research is multidisciplinary, incorporating perspectives in Pipeline transport, Power system simulation, Turbine, Automotive engineering and Partition. Jinyu Wen has researched Microgrid in several fields, including Scalability, Industrial engineering, Optimal control, Decentralised system and Optimization problem. His work on Dynamic programming, Relaxation and Scheduling as part of general Mathematical optimization study is frequently linked to Traffic congestion, bridging the gap between disciplines.
Jinyu Wen mainly focuses on Control theory, Electric power system, Mathematical optimization, Wind power and AC power. His work deals with themes such as Maximum power point tracking, Scalability and Voltage, which intersect with Control theory. His study in Electric power system is interdisciplinary in nature, drawing from both Algorithm and Data-driven.
In general Mathematical optimization study, his work on Relaxation, Dynamic programming and Time horizon often relates to the realm of Imagination, thereby connecting several areas of interest. The various areas that Jinyu Wen examines in his Wind power study include Turbine, Power system simulation, Heating system and Renewable energy. His study explores the link between AC power and topics such as Linearization that cross with problems in Scheduling, Electric power transmission and Sample.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
A particle swarm optimizer with passive congregation.
S. He;Q.H. Wu;J.Y. Wen;J.R. Saunders.
Optimal reactive power dispatch using an adaptive genetic algorithm
Q.H. Wu;Y.J. Cao;J.Y. Wen.
International Journal of Electrical Power & Energy Systems (1998)
Delay-Dependent Stability for Load Frequency Control With Constant and Time-Varying Delays
L. Jiang;W. Yao;Q. H. Wu;J. Y. Wen.
IEEE Transactions on Power Systems (2012)
Wide-Area Damping Controller of FACTS Devices for Inter-Area Oscillations Considering Communication Time Delays
Wei Yao;L. Jiang;Jinyu Wen;Q. H. Wu.
IEEE Transactions on Power Systems (2014)
Probabilistic Load Flow Method Based on Nataf Transformation and Latin Hypercube Sampling
Yan Chen;Jinyu Wen;Shijie Cheng.
IEEE Transactions on Sustainable Energy (2013)
Delay-Dependent Stability Analysis of the Power System With a Wide-Area Damping Controller Embedded
W Yao;L Jiang;Q H Wu;J Y Wen.
IEEE Transactions on Power Systems (2011)
Optimal coordinated voltage control for power system voltage stability
J.Y. Wen;Q.H. Wu;D.R. Turner;S.J. Cheng.
IEEE Transactions on Power Systems (2004)
Integrating wind farm to the grid using hybrid multi-terminal HVDC technology
Xia Chen;Haishun Sun;Jinyu Wen;Wei-Jen Lee.
IEEE Transactions on Industry Applications (2010)
Wide-Area Damping Controller for Power System Interarea Oscillations: A Networked Predictive Control Approach
Wei Yao;Lin Jiang;Jinyu Wen;Qing Hua Wu.
IEEE Transactions on Control Systems and Technology (2015)
Adaptive Learning in Tracking Control Based on the Dual Critic Network Design
Zhen Ni;Haibo He;Jinyu Wen.
IEEE Transactions on Neural Networks (2013)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: