Katsuhiko Ogata
Pearson Education
e druk, 2007
9780136150770
MATLAB for Control Engineers
Specificaties
Paperback, blz.
|
Engels
Pearson Education |
e druk, 2007
ISBN13: 9780136150770
Rubricering
Verwachte levertijd ongeveer 9 werkdagen
Samenvatting
MATLAB® FOR CONTROL ENGINEERS
KATSUHIKO OGATA
Written by a world-renowned expert in MATLAB, this senior-level book is appropriate for use in conjunction with a diversity of controls books. It can also be used as a stand-alone text for those wishing to expand their knowledge of MATLAB. It has been designed to give the reader a full understanding of the applications of MATLAB in solving control engineering problems.
All example problems have detailed explanations in order to provide an understanding of the MATLAB approach to solving the analysis and design problems presented in this book.
Specificaties
Inhoudsopgave
<p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">CONTENTS</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Preface</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 1 Introduction to MATLAB</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">1-1 Introduction </p> <p style="MARGIN: 0px">1-2 Addition, Subtraction, Multiplication, and Division with MATLAB</p> <p style="MARGIN: 0px">1-3 Computing Matrix Functions</p> <p style="MARGIN: 0px">1-4 Plotting Response</p> <p style="MARGIN: 0px">1-5 Three-Dimensional Plots</p> <p style="MARGIN: 0px">1-6 Drawing Geometrical Figures with MATLAB</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 2 Preliminary Study of MATLAB Analysis of Dynamics Systems</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">2-1 Partial-Fraction Expansion with MATLAB</p> <p style="MARGIN: 0px">2-2 Transformation of Mathematical Models of Dynamics Systems</p> <p style="MARGIN: 0px">2-3 MATLAB Representation of Systems in Block Diagram Form</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 3 Transient Response Analysis</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">3-1 Introduction</p> <p style="MARGIN: 0px">3-2 Step Response</p> <p style="MARGIN: 0px">3-3 Impulse Response</p> <p style="MARGIN: 0px">3-4 Ramp Response</p> <p style="MARGIN: 0px">3-5 Response to Arbitrary Input </p> <p style="MARGIN: 0px">3-6 Response to Arbitrary Initial Condition</p> <p style="MARGIN: 0px">3-7 Three-Dimensional</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 4 Root-Locus Analysis</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">4-1 Introduction</p> <p style="MARGIN: 0px">4-2 Root-Locus Plots with polar Grids</p> <p style="MARGIN: 0px">4-3 Finding the Gain Value K at an Arbitrary Point on the Root Loci</p> <p style="MARGIN: 0px">4-4 Root-Locus Plots of No minimum-Phase Systems</p> <p style="MARGIN: 0px">4-5 Root-Locus Plots of Conditionally Stable Systems </p> <p style="MARGIN: 0px">4-6 Root-Loci for Systems with Transport Lag</p> <p style="MARGIN: 0px">4-7 Root-Locus Approach to Control Systems Compensation</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 5 Frequency Response Analysis</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">5-1 Plotting Bode Diagrams with MATLAB</p> <p style="MARGIN: 0px">5-2 Plotting Nyquist Diagrams with MATLAB</p> <p style="MARGIN: 0px">5-3 Log-Magnitude versus Phase Plots</p> <p style="MARGIN: 0px">5-4 Phase Margin and Gain Margin</p> <p style="MARGIN: 0px">5-5 Frequency Response Approach to Control Systems</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 6 MATLAB Approach to State-Space Design of Control Systems</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">6-1 Introduction </p> <p style="MARGIN: 0px">6-2 Controllability and Observability </p> <p style="MARGIN: 0px">6-3 Pole Placement </p> <p style="MARGIN: 0px">6-4 Solving Pole Placement Problems with MATLAB</p> <p style="MARGIN: 0px">6-5 Design of State Observers with MATLAB</p> <p style="MARGIN: 0px">6-6 Minimum-Order Observers</p> <p style="MARGIN: 0px">6-7 Observer Controllers</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Chapter 7 Some Optimization Problems Solved with MATLAB</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">7-1 Computational Approach to Obtain Optimal Sets of Parameter Values</p> <p style="MARGIN: 0px">7-2 Solving Quadratic Optimal Control Problems with MATLAB</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Appendix</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">References</p> <p style="MARGIN: 0px"> </p> <p style="MARGIN: 0px">Index </p>