Modern Control Engineering 5th Edition by Katsuhiko Ogata ISBN 0136156738 9780136156734
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Authors:Katsuhiko Ogata , Series:Mechanical engineering [60] , Tags:Technology & Engineering / Automation Technology & Engineering / Electrical Technology & Engineering / Engineering , Author sort:Ogata, Katsuhiko , Ids:9789332550162 , Languages:Languages:eng , Published:Published:Nov 2015 , Publisher:Pearson India Education Services Pvt. Limited , Comments:Comments:This text is designed for the undergraduate students of electrical, or chemical engineering for a course in CONTROL SYSTEMS. It is a comprehensive treatment of the analysis and design of continuous-time control systems. The basic concepts involved are emphasized and all the material has been recognized towards a gradual development of control theory. Throughout the book, computational problems are solved with MATLAB. The text features an abundance of examples and solved problems that help the student gain a basic understanding of system behavior and control.
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ISBN 10: 0136156738
ISBN 13: 978-0136156734
Author: Katsuhiko Ogata
For senior or graduate-level students taking a first course in Control Theory (in departments of Mechanical, Electrical, Aerospace, and Chemical Engineering).
A comprehensive, senior-level textbook for control engineering.
Ogata’s Modern Control Engineering, 5/e, offers the comprehensive coverage of continuous-time control systems that all senior students must have, including frequency response approach, root-locus approach, and state-space approach to analysis and design of control systems. The text provides a gradual development of control theory, shows how to solve all computational problems with MATLAB, and avoids highly mathematical arguments. A wealth of examples and worked problems are featured throughout the text.
The new edition includes improved coverage of Root-Locus Analysis (Chapter 6) and Frequency-Response Analysis (Chapter 8). The author has also updated and revised many of the worked examples and end-of-chapter problems. This text is ideal for control systems engineers.
Modern Control Engineering 5th Table of contents:
PART I: INTRODUCTION
- Introduction
1.1 Control Systems and Their Applications
1.2 Mathematical Models of Systems
1.3 Control System Design
1.4 Types of Control Systems
PART II: MATHEMATICAL MODELS OF SYSTEMS
2. Mathematical Modeling of Physical Systems
2.1 Mechanical Systems
2.2 Electrical Systems
2.3 Electromechanical Systems
2.4 Fluid Systems
2.5 Thermal Systems
2.6 Translational and Rotational Mechanical Systems
2.7 Bond Graph Representation
PART III: SYSTEM RESPONSE
3. Time Response Analysis
3.1 Transient Response of First-Order Systems
3.2 Transient Response of Second-Order Systems
3.3 System Performance Criteria
3.4 Steady-State Errors
3.5 Stability of Control Systems
- System Stability and Root Locus Analysis
4.1 Introduction to Stability Analysis
4.2 Routh-Hurwitz Criterion
4.3 Root Locus Methods
4.4 Frequency Response and Nyquist Criterion
4.5 Stability in Frequency Domain
PART IV: FREQUENCY RESPONSE
5. Frequency Response Analysis
5.1 Bode Plots
5.2 Polar Plots and Nyquist Plots
5.3 Stability Analysis in the Frequency Domain
5.4 Gain and Phase Margins
5.5 Frequency Domain Design of Control Systems
- Compensation and Control System Design
6.1 Proportional-Derivative (PD) Control
6.2 Proportional-Integral (PI) Control
6.3 Lead-Lag Compensation
6.4 Pole-Zero Placement and Controller Design
6.5 Digital Compensation
PART V: STATE-SPACE ANALYSIS
7. State-Space Analysis of Systems
7.1 State-Space Representation of Systems
7.2 Solution of State Equations
7.3 Controllability and Observability
7.4 State Feedback and State Estimation
7.5 System Stability in State-Space
- Modern Control Design Techniques
8.1 Pole Placement by State Feedback
8.2 Optimal Control and LQR
8.3 Optimal Estimation and Kalman Filter
PART VI: DIGITAL CONTROL SYSTEMS
9. Introduction to Digital Control
9.1 Sampling and Quantization
9.2 Z-Transform and Discrete-Time Systems
9.3 Discrete-Time System Analysis
9.4 Stability and Frequency Response in Discrete Systems
- Digital Control System Design
10.1 Digital Controllers and Discrete Compensators
10.2 Root Locus and Nyquist Analysis for Digital Systems
10.3 Digital System Design by Pole Placement
10.4 Model Predictive Control and Advanced Techniques
PART VII: APPLICATIONS OF CONTROL SYSTEMS
11. Control Systems in Engineering Applications
11.1 Robotics
11.2 Aerospace and Aircraft Systems
11.3 Automotive Control Systems
11.4 Industrial Process Control
11.5 Chemical Process Control
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