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Preface
Chapter 1 Introduction to MATLAB
1-1 Introduction
1-2 Addition, Subtraction, Multiplication, and Division with MATLAB
1-3 Computing Matrix Functions
1-4 Plotting Response Curves
1-5 Three-Dimensional Plots
1-6 Drawing Geometrical Figures with MATLAB
Chapter 2 Preliminary Study of MATLAB Analysis of Dynamic Systems
2-1 Partial-Fraction Expansion with MATLAB
2-2 Transformation of Mathematical Models of Dynamic Systems
2-3 MATLAB Representation of Systems in Block Diagram Form
Chapter 3 Transient-Response Analysis
3-1 Introduction
3-2 Step Response
3-3 Impulse Response
3-4 Ramp Response
3-5 Response to Arbitrary Input
3-6 Response to Arbitrary Initial Condition
3-7 Three-Dimensional Plots
Chapter 4 Root-Locus Analysis
4-1 Introduction
4-2 Root Locus Plots with Polar Grids
4-3 Finding the Gain Value K at an Arbitrary Point on the Root Locus
4-4 Root-Locus Plots of Non-Minimum-Phase Systems
4-5 Root-Locus Plots of Conditionally Stable Systems
4-6 Root Loci for Systems with Transport Lag
4-7 Root-Locus Approach to Control Systems Compensation
Chapter 5 Frequency-Response Analysis
5-1 Plotting Bode Diagrams with MATLAB
5-2 Plotting Nyquist Diagrams with MATLAB
5-3 Log-Magnitude-Versus-Phase Plots
5-4 Phase Margin and Gain Margin 262
5-5 Frequency-Response Approach to Control Systems Compensation
Chapter 6 MATLAB Approach to the State-Space Design of Control Systems
6-1 Introduction
6-2 Controllability and Observability
6-3 Pole Placement
6-4 Solving Pole-Placement Problems with MATLAB
6-5 Design of State Observers with MATLAB
6-6 Minimum-Order Observers
6-7 Observer Controllers
Chapter 7 Some Optimization Problems Solved with MATLAB
7-1 Computational Approach to Obtaining Optimal Sets of Parameter Values
7-2 Solving Quadratic Optimal Control Problems with MATLAB
Appendix
References
Index
