Introduction to Feedback Control Theory

✍ Scribed by Ozbay, Hitay

Publisher: Routledge;CRC
Year: 2018
Tongue: English
Leaves: 230
Category: Library

No coin nor oath required. For personal study only.

✦ Table of Contents

Content: Cover
Half Title
Title Page
Copyright Page
Preface
Dedication
Table of Contents
1: Introduction
1.1 Feedback Control Systems
1.2 Mathematical Models
2: Modeling, Uncertainty, and Feedback
2.1 Finite Dimensional LTI System Models
2.2 Infinite Dimensional LTI System Models
2.2.1 A Flexible Beam
2.2.2 Systems with Time Delays
2.2.3 Mathematical Model of a Thin Airfoil
2.3 Linearization of Nonlinear Models
2.3.1 Linearization Around an Operating Point
2.3.2 Feedback Linearization
2.4 Modeling Uncertainty
2.4.1 Dynamic Uncertainty Description 2.4.2 Parametric Uncertainty Transformed to Dynamic Uncertainty2.4.3 Uncertainty from System Identification
2.5 Why Feedback Control?
2.5.1 Disturbance Attenuation
2.5.2 Tracking
2.5.3 Sensitivity to Plant Uncertainty
2.6 Exercise Problems
3: Performance Objectives
3.1 Step Response: Transient Analysis
3.2 Steady State Analysis
3.3 Exercise Problems
4: BIBO Stability
4.1 Norms for Signals and Systems
4.2 BIBO Stability
4.3 Feedback System Stability
4.4 Routh-Hurwitz Stability Test
4.5 Stability Robustness: Parametric Uncertainty
4.5.1 Uncertain Parameters in the Plant 4.5.2 Kharitanov's Test for Robust Stability4.5.3 Extensions of Kharitanov's Theorem
4.6 Exercise Problems
5: Root Locus
5.1 Root Locus Rules
5.1.1 Root Locus Construction
5.1.2 Design Examples
5.2 Complementary Root Locus
5.3 Exercise Problems
6: Frequency Domain Analysis Techniques
6.1 Cauchy's Theorem
6.2 Nyquist Stability Test
6.3 Stability Margins
6.4 Stability Margins from Bode Plots
6.5 Exercise Problems
7: Systems with Time Delays
7.1 Stability of Delay Systems
7.2 Padé Approximation of Delays
7.3 Roots of a Quasi-Polynomial
7.4 Delay Margin
7.5 Exercise Problems 8: Lead, Lag, and PID Controllers8.1 Lead Controller Design
8.2 Lag Controller Design
8.3 Lead-Lag Controller Design
8.4 PID Controller Design
8.5 Exercise Problems
9: Principles of Loopshaping
9.1 Tracking and Noise Reduction Problems
9.2 Bode's Gain-Phase Relationship
9.3 Design Example
9.4 Exercise Problems
10: Robust Stability and Performance
10.1 Modeling Issues Revisited
10.1.1 Unmodeled Dynamics
10.1.2 Parametric Uncertainty
10.2 Stability Robustness
10.2.1 A Test for Robust Stability
10.2.2 Special Case: Stable Plants
10.3 Robust Performance 10.4 Controller Design for Stable Plants10.4.1 Parameterization of all Stabilizing Controllers
10.4.2 Design Guidelines for Q(s)
10.5 Design of H∞ Controllers
10.5.1 Problem Statement
10.5.2 Spectral Factorization
10.5.3 Optimal H∞ Controller
10.5.4 Suboptimal H∞ Controllers
10.6 Exercise Problems
11: Basic State Space Methods
11.1 State Space Representations
11.2 State Feedback
11.2.1 Pole Placement
11.2.2 Linear Quadratic Regulators
11.3 State Observers
11.4 Feedback Controllers
11.4.1 Observer Plus State Feedback
11.4.2 H2 Optimal Controller

📜 SIMILAR VOLUMES

Introduction to feedback control

📁 Introduction to feedback control

✍ Qiu, Li;Zhou, Kemin 📂 Library 📅 2009;2010 🏛 Prentice Hall 🌐 English

This title updates classical control theory by integrating modern optimal and robust control theory using both classical and modern computational tools. The authors provide a contemporary view of control theory that includes the development of modern optimal and robust control theory over the past 3

Introduction to Feedback Control

📁 Introduction to Feedback Control

✍ Hitay Ozbay 📂 Library 📅 2000 🏛 CRC Press

Feedback Control for Computer Systems: I

📁 Feedback Control for Computer Systems: Introducing Control Theory to Enterprise Programmers

✍ Philipp K. Janert 📂 Library 📅 2013 🏛 O'Reilly Media 🌐 English

How can you take advantage of feedback control for enterprise programming? With this book, author Philipp K. Janert demonstrates how the same principles that govern cruise control in your car also apply to data center management and other enterprise systems. Through case studies and hands-on simulat

Closed Loop Control and Management: Intr

📁 Closed Loop Control and Management: Introduction to Feedback Control Theory with Data Stream Managers

✍ Serge Zacher 📂 Library 📅 2023 🏛 Springer 🌐 English

<p><span>The block diagrams as engineering means for closed loop control, which have been established by classic control theory for decades, are replaced in the above mentioned book by networks, the signals are replaced by data. It corresponds to the „Industry 4.0“ and to the structure of today’s au

Closed Loop Control and Management: Intr

📁 Closed Loop Control and Management: Introduction to Feedback Control Theory with Data Stream Managers

✍ Serge Zacher 📂 Library 📅 2023 🏛 Springer Nature 🌐 English

The block diagrams as engineering means for closed loop control, which have been established by classic control theory for decades, are replaced in the above mentioned book by networks, the signals are replaced by data. It corresponds to the „Industry 4.0“ and to the structure of today’s automatic c

Introduction to Feedback Control using D

📁 Introduction to Feedback Control using Design Studies

✍ R. Beard, T. McLain, C. Peterson 📂 Library 📅 2021 🏛 Independently published 🌐 English

This textbook provides a unique introduction to Feedback Control. It differs from typical control books by presenting principles in the context of three specific design examples: a one link robot arm, a pendulum on a cart, and a satellite attitude problem. These three design examples illustrate the