This title presents a balanced blend between classical and intelligent load frequency control techniques, which is detrminant for continous supply of power loads. The classical control techniques introduced in this book include PID, pole placement, observer-based state feedback, static and dynamic output feedback controllers while the intelligent control techniques explained here are of adaptive fuzzy control types. This book will analyze and design different decentralized LF controllers in order to maintain the frequency deviations of each power area within the limits and keep the tie-line power flow between different power areas at the scheduled levels.
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Presents good blend of classical control approaches and fuzzy logic control techniques to design load frequency controllers for power systems
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Proposes fuzzy logic as an interesting concept for future power systems LFC
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Give a detailed procedure to design different classical controllers and adaptive fuzzy logic controllers
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Illustrates mathematical modelling of multi-area power systems
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Include extensive simulation results of real power system examples
Preface
Chapter 1 : Load Frequency Control of Power Systems
Chapter 2 : Modelling of Multi-area Power Systems
Chapter 3 : LFC of Deregulated Multi-area Power Systems
Chapter 4 : PID LFC Controllers
Chapter 5 : Decentralized LFC Design for Multi-area Power System
Chapter 6 : Fuzzy Systems and Functions Approximation
Chapter 7 : Non-adaptive Fuzzy Load Frequency Control
Chapter 8 : Adaptive Fuzzy Control Techniques
Chapter 9 : Direct Adaptive Fuzzy Load Frequency Control
Chapter 10 : Indirect Adaptive Fuzzy Load Frequency Control
Index