Читать книгу Control of Mechatronic Systems - Patrick O. J. Kaltjob - Страница 2

1  Cover

2  Title Page

3  Copyright

4  Dedication

5  Preface

6  Acknowledgment

7  About the Companion Website

8  1 Introduction to the Control of Mechatronic Systems 1.1 Introduction 1.2 Description of Mechatronic Systems 1.3 Generic Controlled Mechatronic System and Instrumentation Components 1.4 Functions and Examples of Controlled Mechatronic Systems and Processes 1.5 Controller Design Integration Steps and Implementation Strategies Bibliography

9  2 Physics-Based Systems and Processes: Dynamics Modeling 2.1 Introduction 2.2 Generic Dynamic Modeling Methodology 2.3 Transportation Systems and Processes 2.4 Biomedical Systems and Processes 2.5 Fluidic and Thermal Systems and Processes 2.6 Chemical Processes 2.7 Production Systems and Processes Bibliography

10  3 Discrete-Time Modeling and Conversion Methods 3.1 Introduction 3.2 Digital Signal Processing Preliminaries 3.3 Signal Conditioning 3.4 Signal Conversion Technology 3.5 Data Logging and Processing 3.6 Computer Interface and Data Sampling Issues Bibliography

11  4 Discrete-Time Analysis Methods 4.1 Introduction 4.2 Analysis Tools of Discrete-Time Systems and Processes 4.3 Discrete-Time Controller Specifications 4.4 Discrete-Time Steady-State Error Analysis 4.5 Stability Test for Discrete-Time Systems 4.6 Performance Indices and System Dynamical Analysis Bibliography

12  5 Continuous Digital Controller Design 5.1 Introduction 5.2 Design of Control Algorithms for Continuous Systems and Processes 5.3 Modern Control Topologies 5.4 Induction Motor Controller Design Bibliography

13  6 Boolean-Based Modeling and Logic Controller Design 6.1 Introduction 6.2 Generic Boolean-Based Modeling Methodology 6.3 Production Systems 6.4 Biomedical Systems 6.5 Transportation Systems 6.6 Fail-Safe Design and Interlock Issues Bibliography

14  7 Hybrid Controller Design 7.1 Introduction 7.2 Requirements for Monitoring and Control of Hybrid Systems 7.3 Design Methodology for Monitoring and Control Systems 7.4 Examples of Hybrid Control and Case Studies Bibliography

15  8 Mechatronics Instrumentation: Actuators and Sensors 8.1 Introduction 8.2 Actuators in Mechatronics 8.3 Electromechanical Actuating Systems 8.4 Electro-Fluidic Actuating Systems 8.5 Electrothermal Actuating Systems 8.6 Sensors in Mechatronics Bibliography

16  A Stochastic Modeling A.1 Discrete Process Model State-Space Form A.2 Auto-Regressive Model with an eXogenous Input: ARX Model Structure A.3 The Auto-Regressive Model – AR Model Structure A.4 The Moving Average Model – MA Model Structure A.5 The Auto-Regressive Moving Average Model – ARMA Model Structure A.6 The Auto-Regressive Moving Average with eXogenous Input Model – ARMAX Model Structure A.7 Selection of Model Order and Delay A.8 Parameter Estimation Methods A.9 LS Estimation Methods A.10 RLS Estimation Methods A.11 Model Validation A.12 Prediction Error Analysis Methods A.13 Estimation of Confidence Intervals for Parameters A.14 Checking for I/O Consistency for Different Models

17  B Step Response Modeling

18  C Z-Transform Tables

19  D Boolean Algebra, Bus Drivers, and Logic Gates D.1 Some Logic Gates, Flip-Flops, and Drivers D.2 Other Logic Devices: Drivers and Bus Drivers D.3 Gated Latch D.4 D-Type (Delay-Flip-Flop) D.5 Register or Buffer D.6 Adder

20  E Solid-State Devices and Power Electronics E.1 Power Diodes E.2 Diode–Transistor Logic (DTL) E.3 Power Transistors E.4 Resistor–Transistor Logic (RTL) E.5 Transistor–Transistor Logic (TTL) E.6 Metal Oxide Semiconductor FET (MOSFET) E.7 Thyristors

21  Index

22  End User License Agreement