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* [http://arri.uta.edu/acs/history.htm A Brief History of Feedback Control], from Chapter 1 of {{Lew92}}. | * [http://arri.uta.edu/acs/history.htm A Brief History of Feedback Control], from Chapter 1 of {{Lew92}}. | ||
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Revision as of 21:48, 16 December 2007
Prev: Preface | Chapter 1 - Introduction | Next: System Modeling |
In this chapter we provide an introduction to the basic concept of feedback and the related engineering discipline of control. We focus on both historical and current examples, with the intention of providing the context for current tools in feedback and control. Much of the material in this chapter is adopted from [Mur03] and the authors gratefully acknowledge the contributions of Roger Brockett and Gunter Stein for portions of this chapter.
Textbook Contents
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Teaching MaterialsSupplemental Information
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Chapter Summary
This chapter provides an overview fo the role of feedback in science and engineering.
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Feedback is defined as the interaction of two (or more) dynamical systems are connected together such that each system influences the other and their dynamics are thus strongly coupled. We say that a system is closed loop if the systems are interconnected in a cycle and open loop when this interconnection is broken.
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Control is defined as he use of algorithms and feedback in engineered systems. The basic feedback loop of sensing, computation and actuation is the central concept in control. The key issues in designing control logic are ensuring that the dynamics of the closed loop system are stable (bounded disturbances give bounded errors) and that they have the desired behavior (good disturbance rejection, fast responsiveness to changes in operating point, etc).
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Examples of feedback systems can be found all around us, ranging from early examples such as thermostats in buildings and cruise control in automobiles, to modern engineering examples such as aircraft flight control, electronic amplifiers, chemical process control and the Internet. Feedback is also present throughout nature, including biological systems, ecosystems, and the global environment.
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Two key properties of feedback are its ability to provide robustness to uncertainty and its use in design of dynamics. By measuring the difference between a signal's actual and desired values, we can provide a corrective action. This action can maintain the desired operation of a system even when there are changes in the parameters governing the dynamics of the system, and can also be used to modify the natural (open loop) dynamics of a system.
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Feedback also has potential drawbacks: it can cause instability if not used properly and it can couple noise from sensors into the dynamics of a system. It can also increase the overall complexity of a system by coupling different parts of a system so that their dynamics are dependent on one another.
An example of one of the most common feedback controllers is the PID controller, consisting of proportional, integral and derivative terms:
The proportional term provides a restoring input in the presence of error but on its own does not force the error to zero. Integral action provides a mechanism for insuring that the error is zero in steady state. The derivative term provides an anticipatory feedback that predicts future error by making use of the derivative.
Exercises
- Exercise: Everyday examples of feedback systems*
- Exercise: Exploring the dynamics of the ball and beam system
- Exercise: Exploring the performance of a cruise controller*
- Exercise: Exploring the dynamics of rolling mill
- Exercise: Human balance system*
- Exercise: Integral action produces zero steady state error*
- Exercise: Popular articles about control*
- Exercise: Supply chain simulation study
- Exercise: Vestibulo-occular reflex*
Frequently Asked Questions
Additional Information
- A Brief History of Feedback Control, from Chapter 1 of [Lew92].
- Control Theory, the band