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Control and Dynamic Systems V14
Advances in Theory and Applications
- 1st Edition - November 14, 2012
- Editor: C.T. Leonides
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 4 3 1 3 8 4 - 2
- eBook ISBN:9 7 8 - 0 - 3 2 3 - 1 5 1 8 5 - 6
Control and Dynamic Systems: Advances in Theory and Applications, Volume 14 provides information pertinent to the fundamental aspects of linear and nonlinear… Read more
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Request a sales quoteControl and Dynamic Systems: Advances in Theory and Applications, Volume 14 provides information pertinent to the fundamental aspects of linear and nonlinear multi-input–multi-output systems. This book presents the development of analysis and synthesis of these complex systems that describes several important applied issues. Organized into five chapters, this volume begins with an overview of the basic issues in models for large-scale engineering systems and other systems. This text then examines the relations between model complexity or accuracy and system performance. Other chapters consider the various significant systems modeling and control issues in nuclear reactors. This book discusses as well the modeling issues and their methods that are fundamentally useful to the differential–functional (DF) system. The final chapter deals with complex many-element power systems and presents techniques for such systems. This book is a valuable resource for controls and systems engineers. Aeronautic research workers will also find this book extremely useful.
Contributors
Preface
Contents of Previous Volumes
Techniques of Modeling and Model Error Compensation in Linear Regulator Problems
I. Introduction
II. Structure of the Estimation and Control Problem
A. Controller Evaluation Criteria
III. Model Error Definitions
A. Model Error Systems that Generate e?xy{t), or efyz( t )
B. Approximate Controller Design Problem
IV. Model Error Systems that Approximate e£KO
A. The Trajectory Sensitivity System as a Model Error System: e^(AA, A B )
B. Kalman and Adaptive Kalman Filters: ef(v), e%\(w)
C. Reconstruction of ef1(w',v,jci,ÄA,A2?,ÄM) with Orthogonal Functions
V. Model Error Systems That Approximate efz(t), er£v(t), or efyz( t )
A. Singular Perturbation Approach: efAx*)
B. Deterministic Characterization of Disturbances: efz(w)
C. Reconstruction of ^(^,^,ΔΑ,ΔΒ), or eJ5,*(·) with Orthogonal Functions
VI. The Controller Design Using Full-Order State Estimators (Fose)
A. The Controller for ell(t) Estimation Using the Form Eq. (27c) with Αx=0,Bs=0, Py=0
B. The Controller for Estimation Using the Form Eq. (28c) with Ax=0,Bs=0,Py=0
VII. The Controller Design Using Reduced-Order Estimators (Rose)
VIII. Application to a Solar Electric Spacecraft
A. A Trajectory Sensitivity Design
B. Orthogonal Filter Designs
IX. Conclusions and Summary
Reference
Dynamic Analysis and Control of Pressurized Water Reactors
I. Introduction
II. A Little Physics
A. Neutronics
B. Xenon-135 Effects
C. Feedback Coefficients
D. Delayed Power
E. Energy Deposition
III. PWR System Description
A. PWR Subsystems
B. The Pellet-Clad Interaction Problem
IV. Reactor Core Model
A. Neutronics
B. Core Heat Transfer
V. Piping and Plenum Models
VI. Pressurizer Models
VII. Steam Generator Models
VIII. PWR Control
A. Global Control Steady State Programs
B. Control Possibilities
IX. What Next?
Reference
Jet Engine Systems Models Part II. State Space Techniques and Modeling for Control
I. Introduction
II. Background
III. Model Development for Control
IV. Design Models in Optimal Linear Regulator Design
V. Trim Controller Design Utilizing Static, Closed-Loop Models
VI. Transition Models for Control During Large Transients
VII. Summary and Conclusions
References
Bibliography
Power Systems Modeling: Estimation and Control Applications
I. Introduction
II. Power System Modeling
A. Overview
B. Generation System Models
C. Transmission System Models
D. Distribution System Models
E. System Load Models
III. Power System Information and Control
A. Overview
B. Information and Control Hierarchy
C. Information and Control Functions
IV. Parameter and State Estimation
A. Overview
B. Features and Functions
C. Basic Theory and Algorithm
D. Advanced Estimation Program
E. Numerical Results
V. System Security Assessment and Control
A. Overview
B. Statement of the Problem
C. The Security Assessment Problem
D. The Remedial Control Problem
E. Numerical Results
VI. Distribution System Control
A. Overview
B. Statement of the Problem
C. Network and Control Decomposition
D. Mathematical and Heuristic Programming
E. Numerical Results
VII. Summary and Conclusions
References
Index
- No. of pages: 406
- Language: English
- Edition: 1
- Published: November 14, 2012
- Imprint: Academic Press
- Paperback ISBN: 9780124313842
- eBook ISBN: 9780323151856
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