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Feedback control of computing systems /
A pioneering reference on control theory designed specifically for computer professionalsIn today's computerized economy, the profitability and availability of many businesses rely on a clear understanding of the dynamics of their computing systems, especially how they relate to changes in work...
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Hoboken, N.J. :
Wiley-Interscience : IEEE Press,
©2004.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover
- Feedback Control of Computing Systems
- Contents
- PREFACE
- PART I BACKGROUND
- 1 Introduction and Overview
- 1.1 The Nature of Feedback Control
- 1.2 Control Objectives
- 1.3 Properties of Feedback Control Systems
- 1.4 Open-Loop versus Closed-Loop Control
- 1.5 Summary of Applications of Control Theory to Computing Systems
- 1.6 Computer Examples of Feedback Control Systems
- 1.7 Challenges in Applying Control Theory to Computing Systems
- 1.8 Summary
- 1.9 Exercises
- PART II SYSTEM MODELING
- 2 Model Construction
- 2.1 Basics of Queueing Theory
- 2.2 Modeling Dynamic Behavior
- 2.3 First-Principles Models
- 2.4 Black-Box Models
- 2.5 Summary
- 2.6 Extended Examples
- 2.7 Parameter Estimation Using MATLAB
- 2.8 Exercises
- 3 Z-Transforms and Transfer Functions
- 3.1 Z-Transform Basics
- 3.2 Characteristics Inferred from Z-Transforms
- 3.3 Transfer Functions
- 3.4 Summary
- 3.5 Extended Examples
- 3.6 Z-Transforms and MATLAB
- 3.7 Exercises
- 4 System Modeling with Block Diagrams
- 4.1 Block Diagrams Basics
- 4.2 Transforming Block Diagrams
- 4.3 Transfer Functions for Control Analysis
- 4.4 Block Diagram Restructuring
- 4.5 Summary
- 4.6 Extended Examples
- 4.7 Composing Transfer Functions in MATLAB
- 4.8 Exercises
- 5 First-Order Systems
- 5.1 First-Order Model
- 5.2 System Response
- 5.3 Initial Condition Response
- 5.4 Impulse Response
- 5.5 Step Response
- 5.6 Transient Response to Other Signals
- 5.7 Effect of Stochastics
- 5.8 Summary
- 5.9 Extended Examples
- 5.10 Analyzing Transient Response with MATLAB
- 5.11 Exercises
- 6 Higher-Order Systems
- 6.1 Motivation and Definitions
- 6.2 Real Poles
- 6.3 Complex Poles
- 6.4 Summary
- 6.5 Extended Examples
- 6.6 Analyzing Transient Response with MATLAB
- 6.7 Exercises
- 7 State-Space Models
- 7.1 State Variables
- 7.2 State-Space Models
- 7.3 Solving Difference Equations in State Space
- 7.4 Converting Between Transfer Function Models and State-Space Models
- 7.5 Analysis of State-Space Models
- 7.6 Special Considerations in State-Space Models
- 7.7 Summary
- 7.8 Extended Examples
- 7.9 Constructing State-Space Models in MATLAB
- 7.10 Exercises
- PART III CONTROL ANALYSIS AND DESIGN
- 8 Proportional Control
- 8.1 Control Laws and Controller Operation
- 8.2 Desirable Properties of Controllers
- 8.3 Framework for Analyzing Proportional Control
- 8.4 P-Control: Robustness, Delays, and Filters
- 8.5 Design of Proportional Controllers
- 8.6 Summary
- 8.7 Extended Examples
- 8.8 Designing P-Controllers in MATLAB
- 8.9 Exercises
- 9 PID Controllers
- 9.1 Integral Control
- 9.2 Proportional ... Integral Control
- 9.3 Proportional ... Derivative Control
- 9.4 PID Control
- 9.5 Summary
- 9.6 Extended Examples
- 9.7 Designing PI Controllers in MATLAB
- 9.8 Exercises
- 10 State-Space Feedback Control
- 10.1 State-Space Analysis
- 10.2 State Feedback.