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Nonlinear control systems and power system dynamics
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TLDR
This book discusses the design Principles of Single-Input Single-Output Nonlinear Control Systems and their applications in Electric Power Systems and Nonlinear Excitation Control of Large Synchronous Generators.Abstract:
Preface. 1. Introduction. 2. Basic Concepts of Nonlinear Control Theory. 3. Design Principles of Single-Input Single-Output Nonlinear Control Systems. 4. Design Principles of Multi-Input Multi-Output Nonlinear Control Systems. 5. Basic Mathematical Descriptions for Electric Power Systems. 6. Nonlinear Excitation Control of Large Synchronous Generators. 7. Nonlinear Steam Valving Control. 8. Nonlinear Control of HVDC Systems. 9. Nonlinear Control of Static Var Systems. 10. Nonlinear Robust Control of Power Systems. Index.read more
Citations
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Journal ArticleDOI
Transient Stability and Voltage Regulation in Multimachine Power Systems Vis-à-Vis STATCOM and Battery Energy Storage
TL;DR: In this article, a passivity-based control design method is developed for multimachine power systems and its performance is evaluated on a two-area system consisting of two synchronous generators (SGs) and two doubly-fed induction generators (DFIGs).
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Direct Heuristic Dynamic Programming for Damping Oscillations in a Large Power System
Chao Lu,Jennie Si,Xiaorong Xie +2 more
TL;DR: A neural-network-based approximate dynamic programming method, namely, the direct heuristic dynamic programming (direct HDP), is applied to a large power system stability control problem and results include a novel learning control structure based on the direct HDP with applications to two power system problems.
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Brief Adaptive nonlinear excitation control with L2 disturbance attenuation for power systems
TL;DR: It is shown that the stabilizing control law with desired L"2 gain from the disturbance to a penalty signal can be designed by a recursive way without linearization.
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Full-order nonlinear observer-based excitation controller design for interconnected power systems via exact linearization approach
TL;DR: In this article, a novel full-order nonlinear observer-based excitation controller design for interconnected power systems is presented, where the observed states of power system are directly used as the input to the controller where the control law does not need to be expressed in terms of all measured variables.
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Game Approaches for Hybrid Power System Planning
TL;DR: In this article, game theory is introduced to model the planning of a grid-connected hybrid power system comprised of wind turbines, photovoltaic panels, and storage batteries, and an iterative solving algorithm is also proposed to obtain the Nash equilibriums of the game model.
References
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Journal ArticleDOI
State-space solutions to standard H/sub 2/ and H/sub infinity / control problems
TL;DR: In this article, simple state-space formulas are derived for all controllers solving the following standard H/sub infinity / problem: for a given number gamma > 0, find all controllers such that the H/ sub infinity / norm of the closed-loop transfer function is (strictly) less than gamma.
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Dissipative dynamical systems part I: General theory
TL;DR: In this paper, a general theory of dissipative dynamical systems is presented, where dissipativeness is defined in terms of an inequality involving the storage function and the supply function, which is bounded from below by the available storage and from above by the required supply.
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Dissipative dynamical systems Part II: Linear systems with quadratic supply rates
TL;DR: The theory of dissipative systems in the context of finite dimensional stationary linear systems with quadratic supply rates has been studied in this paper, where a necessary and sufficient frequency domain condition for dissipativeness is derived.
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The stability of nonlinear dissipative systems
David J. Hill,P. Moylan +1 more
TL;DR: In this article, a technique for generating Lyapunov functions for a broad class of nonlinear systems represented by state equations is presented, where dissipativeness is characterized by the existence of a computable function which can be interpreted as the stored energy of the system.