Difference between revisions of "Second Edition"

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This page contains information regarding the Second Edition of ''Feedback Systems'', which is scheduled for release in 2015.
 
This page contains information regarding the Second Edition of ''Feedback Systems'', which is scheduled for release in 2015.
  
'''Note:''' These notes are in draft form and may contain errors.  Permission is granted to download and print a copy for individual use, but this material may not be reproduced, in whole or in part, without written consent from the author.
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{{warning|These notes are in draft form and may contain errors, typos, missing references and other temporary issues.  Permission is granted to download and print a copy for individual use, but this material may not be reproduced, in whole or in part, without written consent from the author.}}
  
 
===== News ([[Second Edition:Archived news|archive]]) =====
 
===== News ([[Second Edition:Archived news|archive]]) =====

Revision as of 23:11, 22 June 2014

This page contains information regarding the Second Edition of Feedback Systems, which is scheduled for release in 2015.

WARNING: These notes are in draft form and may contain errors, typos, missing references and other temporary issues. Permission is granted to download and print a copy for individual use, but this material may not be reproduced, in whole or in part, without written consent from the author.
News (archive)
  • 22 Jun 2014: initial posting of second edition materials

Contents

  • Chapter 1 - Introduction (PDF, 22 Jun 2014)
    • What Is Feedback?
    • What Is Control?
    • Feedback Properties
    • Simple Forms of Feedback
    • Combining Feedback with Logic
    • Control System Architectures
  • Chapter 2 - System Modeling (PDF, 22 Jun 2014)
    • Modeling Concepts
    • State Space Models
    • Modeling Methodology
    • Modeling Examples
  • Chapter 3 - Feedback Principles (PDF, 22 Jun 2014)
    • Mathematical Models
    • Using Feedback to Improve Disturbance Attenuation
    • Using Feedback to Follow Command Signals
    • Using Feedback to Provide Robustness
    • Using Feedback to Shape Behavior
    • Feedback and Feedforward
  • Chapter 5 - Linear Systems (PDF, 22 Jun 2014)
    • Basic Definitions
    • The Matrix Exponential
    • Input/Output Response
    • Linearization
  • Chapter 6 - State Feedback (PDF, 22 Jun 2014)
    • Reachability
    • Stabilization by State Feedback
    • State Feedback Design
    • Integral Action
  • Chapter 7 - Output Feedback (PDF, 22 Jun 2014)
    • Observability
    • State Estimation
    • Control Using Estimated State
    • Kalman Filtering
    • A General Controller Structure
  • Chapter 8 - Transfer Functions (PDF, 22 Jun 2014)
    • Frequency Domain Modeling
    • Derivation of the Transfer Function
    • Block Diagrams and Transfer Functions
    • The Bode Plot
    • Laplace Transforms
  • Chapter 9 - Frequency Domain Analysis (PDF, 22 Jun 2014)
    • The Loop Transfer Function
    • The Nyquist Criterion
    • Stability Margins
    • Bode’s Relations and Minimum Phase Systems
    • Generalized Notions of Gain and Phase
  • Chapter 10 - PID Control (PDF, 22 Jun 2014)
    • Basic Control Functions
    • Simple Controllers for Complex Systems
    • PID Tuning
    • Integrator Windup
    • Implementation
  • Chapter 11 - Frequency Domain Design (PDF, 22 Jun 2014)
    • Sensitivity Functions
    • Feedforward Design
    • Performance Specifications
    • Feedback Design via Loop Shaping
    • The Root-Locus Method
    • Fundamental Limitations
    • Design Example
  • Chapter 12 - Robust Performance (PDF, 22 Jun 2014)
    • Modeling Uncertainty
    • Stability in the Presence of Uncertainty
    • Performance in the Presence of Uncertainty
    • Robust Pole Placement
    • Design for Robust Performance
  • Appendix A - Examples (PDF, 22 Jun 2014)
    • Cruise Control
    • Bicycle Dynamics
    • Operational Amplifier Circuits
    • Computing Systems and Networks
    • Atomic Force Microscopy
    • Drug Administration
    • Population Dynamics