Modern control systems

Modern control systems

 For courses in Control Theory Developing Problem-Solving Skills Through Integrated Design and Analysis The purpose of Dorf's Modern Control Systems, 13th Edition is to present the structure of feedback control theory and to provide a sequence of exciting discoveries. The book demonstrates vari...

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Detalles Bibliográficos
Otros Autores: Dorf, Richard C., author (author), Bishop, Robert H., 1957- author
Formato: Libro electrónico
Idioma:Inglés
Publicado: Harlow, England : Pearson Education Limited [2017]
Edición:Thirteenth edition
Materias:
Feedback control systems.
Control theory.
Ver en Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009767234906719
Tabla de Contenidos:
  • Cover
  • Title Page
  • Copyright Page
  • Brief Contents
  • Contents
  • Preface
  • About the Authors
  • Chapter 1 Introduction to Control Systems
  • 1.1 Introduction
  • 1.2 Brief History of Automatic Control
  • 1.3 Examples of Control Systems
  • 1.4 Engineering Design
  • 1.5 Control System Design
  • 1.6 Mechatronic Systems
  • 1.7 Green Engineering
  • 1.8 The Future Evolution of Control Systems
  • 1.9 Design Examples
  • 1.10 Sequential Design Example: Disk Drive Read System
  • 1.11 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Terms and Concepts
  • Chapter 2 Mathematical Models of Systems
  • 2.1 Introduction
  • 2.2 Differential Equations of Physical Systems
  • 2.3 Linear Approximations of Physical Systems
  • 2.4 The Laplace Transform
  • 2.5 The Transfer Function of Linear Systems
  • 2.6 Block Diagram Models
  • 2.7 Signal-Flow Graph Models
  • 2.8 Design Examples
  • 2.9 The Simulation of Systems Using Control Design Software
  • 2.10 Sequential Design Example: Disk Drive Read System
  • 2.11 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 3 State Variable Models
  • 3.1 Introduction
  • 3.2 The State Variables of a Dynamic System
  • 3.3 The State Differential Equation
  • 3.4 Signal-Flow Graph and Block Diagram Models
  • 3.5 Alternative Signal-Flow Graph and Block Diagram Models
  • 3.6 The Transfer Function from the State Equation
  • 3.7 The Time Response and the State Transition Matrix
  • 3.8 Design Examples
  • 3.9 Analysis of State Variable Models Using Control Design Software
  • 3.10 Sequential Design Example: Disk Drive Read System
  • 3.11 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts.
  • Chapter 4 Feedback Control System Characteristics
  • 4.1 Introduction
  • 4.2 Error Signal Analysis
  • 4.3 Sensitivity of Control Systems to Parameter Variations
  • 4.4 Disturbance Signals in a Feedback Control System
  • 4.5 Control of the Transient Response
  • 4.6 Steady-State Error
  • 4.7 The Cost of Feedback
  • 4.8 Design Examples
  • 4.9 Control System Characteristics Using Control Design Software
  • 4.10 Sequential Design Example: Disk Drive Read System
  • 4.11 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 5 The Performance of Feedback Control Systems
  • 5.1 Introduction
  • 5.2 Test Input Signals
  • 5.3 Performance of Second-Order Systems
  • 5.4 Effects of a Third Pole and a Zero on the Second-Order System Response
  • 5.5 The s-Plane Root Location and the Transient Response
  • 5.6 The Steady-State Error of Feedback Control Systems
  • 5.7 Performance Indices
  • 5.8 The Simplification of Linear Systems
  • 5.9 Design Examples
  • 5.10 System Performance Using Control Design Software
  • 5.11 Sequential Design Example: Disk Drive Read System
  • 5.12 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 6 The Stability of Linear Feedback Systems
  • 6.1 The Concept of Stability
  • 6.2 The Routh-Hurwitz Stability Criterion
  • 6.3 The Relative Stability of Feedback Control Systems
  • 6.4 The Stability of State Variable Systems
  • 6.5 Design Examples
  • 6.6 System Stability Using Control Design Software
  • 6.7 Sequential Design Example: Disk Drive Read System
  • 6.8 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 7 The Root Locus Method
  • 7.1 Introduction.
  • 7.2 The Root Locus Concept
  • 7.3 The Root Locus Procedure
  • 7.4 Parameter Design by the Root Locus Method
  • 7.5 Sensitivity and the Root Locus
  • 7.6 PID Controllers
  • 7.7 Negative Gain Root Locus
  • 7.8 Design Examples
  • 7.9 The Root Locus Using Control Design Software
  • 7.10 Sequential Design Example: Disk Drive Read System
  • 7.11 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 8 Frequency Response Methods
  • 8.1 Introduction
  • 8.2 Frequency Response Plots
  • 8.3 Frequency Response Measurements
  • 8.4 Performance Specifications in the Frequency Domain
  • 8.5 Log-Magnitude and Phase Diagrams
  • 8.6 Design Examples
  • 8.7 Frequency Response Methods Using Control Design Software
  • 8.8 Sequential Design Example: Disk Drive Read System
  • 8.9 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 9 Stability in the Frequency Domain
  • 9.1 Introduction
  • 9.2 Mapping Contours in the s-Plane
  • 9.3 The Nyquist Criterion
  • 9.4 Relative Stability and the Nyquist Criterion
  • 9.5 Time-Domain Performance Criteria in the Frequency Domain
  • 9.6 System Bandwidth
  • 9.7 The Stability of Control Systems with Time Delays
  • 9.8 Design Examples
  • 9.9 PID Controllers in the Frequency Domain
  • 9.10 Stability in the Frequency Domain Using Control Design Software
  • 9.11 Sequential Design Example: Disk Drive Read System
  • 9.12 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 10 The Design of Feedback Control Systems
  • 10.1 Introduction
  • 10.2 Approaches to System Design
  • 10.3 Cascade Compensators
  • 10.4 Phase-Lead Design Using the Bode Plot.
  • 10.5 Phase-Lead Design Using the Root Locus
  • 10.6 System Design Using Integration Compensators
  • 10.7 Phase-Lag Design Using the Root Locus
  • 10.8 Phase-Lag Design Using the Bode Plot
  • 10.9 Design on the Bode Plot Using Analytical Methods
  • 10.10 Systems with a Prefilter
  • 10.11 Design for Deadbeat Response
  • 10.12 Design Examples
  • 10.13 System Design Using Control Design Software
  • 10.14 Sequential Design Example: Disk Drive Read System
  • 10.15 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 11 The Design of State Variable Feedback Systems
  • 11.1 Introduction
  • 11.2 Controllability and Observability
  • 11.3 Full-State Feedback Control Design
  • 11.4 Observer Design
  • 11.5 Integrated Full-State Feedback and Observer
  • 11.6 Reference Inputs
  • 11.7 Optimal Control Systems
  • 11.8 Internal Model Design
  • 11.9 Design Examples
  • 11.10 State Variable Design Using Control Design Software
  • 11.11 Sequential Design Example: Disk Drive Read System
  • 11.12 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • Chapter 12 Robust Control Systems
  • 12.1 Introduction
  • 12.2 Robust Control Systems and System Sensitivity
  • 12.3 Analysis of Robustness
  • 12.4 Systems with Uncertain Parameters
  • 12.5 The Design of Robust Control Systems
  • 12.6 The Design of Robust PID-Controlled Systems
  • 12.7 The Robust Internal Model Control System
  • 12.8 Design Examples
  • 12.9 The Pseudo-Quantitative Feedback System
  • 12.10 Robust Control Systems Using Control Design Software
  • 12.11 Sequential Design Example: Disk Drive Read System
  • 12.12 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts.
  • Chapter 13 Digital Control Systems
  • 13.1 Introduction
  • 13.2 Digital Computer Control System Applications
  • 13.3 Sampled-Data Systems
  • 13.4 The z-Transform
  • 13.5 Closed-Loop Feedback Sampled-Data Systems
  • 13.6 Performance of a Sampled-Data, Second-Order System
  • 13.7 Closed-Loop Systems with Digital Computer Compensation
  • 13.8 The Root Locus of Digital Control Systems
  • 13.9 Implementation of Digital Controllers
  • 13.10 Design Examples
  • 13.11 Digital Control Systems Using Control Design Software
  • 13.12 Sequential Design Example: Disk Drive Read System
  • 13.13 Summary
  • Skills Check
  • Exercises
  • Problems
  • Advanced Problems
  • Design Problems
  • Computer Problems
  • Terms and Concepts
  • References
  • Index
  • Appendix A MATLAB Basics
  • Appendix B MathScript RT Module Basics
  • Appendix C Symbols, Units, and Conversion Factors
  • Appendix D Laplace Transform Pairs
  • Appendix E An Introduction to Matrix Algebra
  • Appendix F Decibel Conversion
  • Appendix G Complex Numbers
  • Appendix H z-Transform Pairs Preface
  • Appendix I Discrete-Time Evaluation of the Time Response.

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