Difference between revisions of "Control theory"
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− | '''Control theory''' is an interdisciplinary branch of [[engineering]] and [[mathematics]] that deals with the behavior of dynamical systems with inputs, and how their behavior is modified by feedback. | + | '''Control theory''' is an interdisciplinary branch of [[engineering]] and [[mathematics]] that deals with the behavior of [[Dynamical system|dynamical systems]] with inputs, and how their behavior is modified by [[feedback]]. |
== Description == | == Description == | ||
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== See also == | == See also == | ||
+ | * [[BIBO stability]] - | ||
* [[Block diagram]] | * [[Block diagram]] | ||
* [[Differential equation]] | * [[Differential equation]] | ||
+ | * [[Dynamical system]] | ||
* [[Engineering]] | * [[Engineering]] | ||
* [[Feedback]] | * [[Feedback]] |
Latest revision as of 11:30, 24 August 2016
Control theory is an interdisciplinary branch of engineering and mathematics that deals with the behavior of dynamical systems with inputs, and how their behavior is modified by feedback.
Description
The usual objective of control theory is to control a system, often called the plant, so its output follows a desired control signal, called the reference, which may be a fixed or changing value.
To do this a controller is designed, which monitors the output and compares it with the reference. The difference between actual and desired output, called the error signal, is applied as feedback to the input of the system, to bring the actual output closer to the reference.
Topics
Topics studied in control theory include:
- Stability (whether the output will converge to the reference value or oscillate about it)
- Controllability
- Observability
Block diagrams
Extensive use is usually made of a diagrammatic style known as the block diagram.
The transfer function, also known as the system function or network function, is a mathematical representation of the relation between the input and output based on the differential equations describing the system.
Applications
As the general theory of feedback systems, control theory is useful wherever feedback occurs.
Control theory has applications in a wide range of fields, including:
- Physiology
- Electronics
- Climate modeling
- Machine design
- Ecosystems
- Navigation
- Neural networks
- Predator-prey interaction
- Gene expression
- Production theory
See also
- BIBO stability -
- Block diagram
- Differential equation
- Dynamical system
- Engineering
- Feedback
- Input
- Mathematics
- Model
- Output
- Separation principle -
- Simulation