2023 - Research.com Electronics and Electrical Engineering in China Leader Award
1991 - IEEE Fellow For contributions to the development of theory and computational methods for power system planning operation
Felix F. Wu focuses on Electric power system, Control theory, Electrical network, Mathematical optimization and Transmission. His work carried out in the field of Electric power system brings together such families of science as State, Control engineering, Smart grid, Electrical engineering and Electric power. In general Control theory study, his work on Equilibrium point often relates to the realm of Direct methods, thereby connecting several areas of interest.
His Electrical network study combines topics in areas such as Algorithm design, Power system simulation, Network topology, Unobservable and Transient. His study in Network topology is interdisciplinary in nature, drawing from both Intelligent Network, Load balancing, Transformer and Topology. His work on Optimization problem as part of general Mathematical optimization study is frequently connected to System testing, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them.
His primary scientific interests are in Electric power system, Control theory, Mathematical optimization, Electricity market and Microeconomics. His Electric power system research includes themes of Voltage, Electrical network, Reliability engineering, Control engineering and Electric power. The Control theory study combines topics in areas such as AC power, Power-flow study and Mathematical analysis.
His Mathematical optimization research includes elements of Convergence and Oligopoly. In his research, Investment is intimately related to Industrial organization, which falls under the overarching field of Electricity market. The concepts of his Microeconomics study are interwoven with issues in Electric power industry, Spot market and Operations research.
Felix F. Wu mostly deals with Mathematical optimization, Smart grid, Electric power system, Renewable energy and Wind power. His work on Optimization problem, Optimal control and Linear programming as part of general Mathematical optimization research is frequently linked to Smoothing, bridging the gap between disciplines. His work carried out in the field of Smart grid brings together such families of science as Electricity generation, Telecommunications and Embedded system.
His Electric power system study incorporates themes from Reliability engineering and Automotive engineering. His work in Renewable energy tackles topics such as Electricity which are related to areas like Microeconomics, Reference price and Black–Scholes model. Felix F. Wu focuses mostly in the field of Wind power, narrowing it down to matters related to Production and, in some cases, Reliability, Resource management and Electricity retailing.
Felix F. Wu spends much of his time researching Smart grid, Renewable energy, Electric power system, Wind power and Electric power. His biological study spans a wide range of topics, including Building automation, Distributed computing and Embedded system. His research integrates issues of Expected cost, Mathematical optimization and Decision problem in his study of Renewable energy.
Felix F. Wu has researched Mathematical optimization in several fields, including Simulation, Economic dispatch and Solar power. His Electric power system research focuses on Reliability engineering and how it relates to Risk analysis. Felix F. Wu interconnects Power engineering, Electricity generation and Electrical engineering in the investigation of issues within Electric power.
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Network reconfiguration in distribution systems for loss reduction and load balancing
Mesut E. Baran;Felix F. Wu.
IEEE Power & Energy Magazine (1989)
Power System Control Centers: Past, Present, and Future
F.F. Wu;K. Moslehi;A. Bose.
Proceedings of the IEEE (2005)
Stability regions of nonlinear autonomous dynamical systems
H.-D. Chiang;M.W. Hirsch;F.F. Wu.
IEEE Transactions on Automatic Control (1988)
Smart Operation of Smart Grid: Risk-Limiting Dispatch
P P Varaiya;F F Wu;J W Bialek.
Proceedings of the IEEE (2011)
Network Observability: Theory
A. Monticelli;Felix F. Wu.
IEEE Power & Energy Magazine (1985)
A BCU method for direct analysis of power system transient stability
Hsiao-Dong Chiang;F.F. Wu;P.P. Varaiya.
IEEE Transactions on Power Systems (1994)
Electric Springs—A New Smart Grid Technology
Shu Yuen Hui;Chi Kwan Lee;F. F. Wu.
IEEE Transactions on Smart Grid (2012)
Direct methods for transient stability analysis of power systems: Recent results
P. Varaiya;F.F. Wu;Rong-Liang Chen.
Proceedings of the IEEE (1985)
Folk Theorems on Transmission Access: Proofs and Counterexamples
Felix Wu;Pravin Varaiya;Pablo Spiller;Shmuel Oren.
Journal of Regulatory Economics (1996)
Foundations of direct methods for power system transient stability analysis
Hsiao-Dong Chiang;F. Wu;P. Varaiya.
IEEE Transactions on Circuits and Systems (1987)
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