Using MATLAB to analyze and design control systems

Bibliographic Information

Using MATLAB to analyze and design control systems

Naomi Ehrich Leonard, William S. Levine

Addison-Wesley Pub., 1995

2nd ed

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Includes index

Description and Table of Contents

Description

This book serves as an introduction to Matlab for anyone who studies or designs control systems. Through extensive interactive examples and exercises that demonstrate Matlab fundamentals and plotting capabilities, students quickly learn how to use the software to perform calculations and generate graphs essential to control system analysis and design. The manual includes an introduction to Simulink software and Handle Graphics. With Simulink, students can use block diagrams to simulate linear and nonlinear systems and display the results.

Table of Contents

1 Matlab Fundamentals Introduction. Getting Started. Fundamental Expressions. On-Line Help, Format, and Save. Creating Script Files. Matrices, Vectors, and Polynomials. Matrix Operations and Functions. Creating Functions. Exercises. 2. Plotting Creating Two-Dimensional Plots. Customizing Plots. Plotting Three-Dimensional Data. Introduction to Handle Graphics. Exercises. 3. Setting up Control Problems Creating Transfer Functions. Creating State-Space Models. Changing from State-Space to Transfer Functions. Changing from Transfer Function to State-Space. Building Systems. Building Systems using SIMULINK. 4. Poles, Zeros, and Time Response Computing Poles and Zero. Creating Transfer Functions from Poles and Zeros. Computing and Plotting Time Response from Poles and Zeros. Time Response of Nonlinear Systems Using SIMULINK. Exercises. 5. ???? 6. Root Locus Plots Creating and Analyzing Root Locus Plots. Customizing Root Locus Plots. Design by Means of Root Locus Plots. Simulations of PID Control Using SIMULINK. Exercises. 7. Frequency-Domain Plots Creating Frequency-Domain Plots. Customizing Frequency-Domain Plots. Design by Means of Frequency Response Plots. Exercises. 8. State-Space Computations Controllers and Obervers. Controllability and Observability. Design Example. Exercises. 9. Discrete-Time Control Systems Creating Discrete-Time Systems. Time-domain and Pole-Zero Analysis of Discrete-Time Systems. Frequency-Domain Analysis of Discrete-Time Systems. Exercises.

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