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E. A. Szymanski

Bio: E. A. Szymanski is an academic researcher from Wayne State University. The author has contributed to research in topics: Tie line. The author has an hindex of 1, co-authored 1 publications receiving 56 citations.
Topics: Tie line


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Journal ArticleDOI
TL;DR: In this paper, the authors present a critical literature review and an up-to-date and exhaustive bibliography on the AGC of power systems, highlighting various control aspects concerning the AGG problem.
Abstract: An attempt is made in This work to present critical literature review and an up-to-date and exhaustive bibliography on the AGC of power systems. Various control aspects concerning the AGC problem have been highlighted. AGC schemes based on parameters, such as linear and nonlinear power system models, classical and optimal control, and centralized, decentralized, and multilevel control, are discussed. AGC strategies based on digital, self-tuning control, adaptive, VSS systems, and intelligent/soft computing control have been included. Finally, the investigations on AGC systems incorporating BES/SMES, wind turbines, FACTS devices, and PV systems have also been discussed.

836 citations

Journal ArticleDOI
TL;DR: In this paper, the authors provide an overview of control strategies for researchers, as well as of their current use in the field of load frequency control (LFC), and make various comparisons between these approaches, and the main advantages and disadvantages of the methods.

504 citations

Book
15 Apr 2011
TL;DR: In this paper, a three-control area power system is used to regulate the frequency of the power system using energy-capacitor system (ECS) in a Deregulated Environment.
Abstract: Intelligent Power System Operation and Control: Japan Case Study Application of Intelligent Methods to Power Systems Application to Power System Planning Application to Power System Control and Restoration Future Implementations Automatic Generation Control (AGC): Fundamentals and Concepts AGC in a Modern Power System Power System Frequency Control Frequency Response Model and AGC Characteristics A Three-Control Area Power System Example Intelligent AGC: Past Achievements and New Perspectives Fuzzy Logic AGC Neuro-Fuzzy and Neural-Networks-Based AGC Genetic-Algorithm-Based AGC Multiagent-Based AGC Combined and Other Intelligent Techniques in AGC AGC in a Deregulated Environment AGC and Renewable Energy Options AGC and Microgrids Scope for Future Work AGC in Restructured Power Systems Control Area in New Environment AGC Configurations and Frameworks AGC Markets AGC Response and an Updated Model Neural-Network-Based AGC Design An Overview ANN-Based Control Systems Flexible Neural Network Bilateral AGC Scheme and Modeling FNN-Based AGC System Application Examples AGC Systems Concerning Renewable Energy Sources An Updated AGC Frequency Response Model Frequency Response Analysis Simulation Study Emergency Frequency Control and RESs Key Issues and New Perspectives AGC Design Using Multiagent Systems Multiagent System (MAS): An Introduction Multiagent Reinforcement-Learning-Based AGC Using GA to Determine Actions and States An Agent for ss Estimation Bayesian-Network-Based AGC Approach Bayesian Networks: An Overview AGC with Wind Farms Proposed Intelligent Control Scheme Implementation Methodology Application Results Fuzzy Logic and AGC Systems Study Systems Polar-Information-Based Fuzzy Logic AGC PSO-Based Fuzzy Logic AGC Frequency Regulation Using Energy Capacitor System Fundamentals of the Proposed Control Scheme Study System Simulation Results Evaluation of Frequency Regulation Performance Application of Genetic Algorithm in AGC Synthesis Genetic Algorithm: An Overview Optimal Tuning of Conventional Controllers Multiobjective GA GA for Tracking Robust Performance Index GA in Learning Process Frequency Regulation in Isolated Systems with Dispersed Power Sources Configuration of Multiagent-Based AGC System Configuration of Laboratory System Experimental Results

250 citations

Journal ArticleDOI
TL;DR: In this article, a load frequency control (LFC) mechanism was proposed for multi-generating two areas interconnected power systems with energy storage system in a deregulated power environment. And the proposed control mechanism has been analyzed in different simulation case studies to find out improved dynamic performance over integral control strategies.

133 citations

Journal ArticleDOI
TL;DR: In this article, a generalized approach to load frequency control that combines discontinuous control and dual-mode control and uses variable-structure-systems concepts is developed, and a novel load-frequency control algorithm is proposed.
Abstract: A generalized approach to load frequency control that combines discontinuous control and dual-mode control and uses variable-structure-systems concepts is developed. Using this approach, a novel load-frequency control algorithm is proposed. Studies on a multi-area power system, including generation rate constraint and governor dead-band, demonstrate the effectiveness of the control scheme. >

95 citations