Linear quadratic regulation using neural networks

Kevin L. Moore; Subbaram Naidu

Linear quadratic regulation using neural networks

Kevin L. Moore, Subbaram Naidu

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The authors describe the use of neural networks for solving optimal control problems for discrete-time linear systems with quadratic cost functions. The result is obtained by formulating the optimal control problem as a quadratic programming problem with inequality constraints and then applying a result by M. Kennedy and L. Chua (1988). The authors present numerical examples of the method, comparisions to standard Ricatti equation solutions, and extensions to Kalman filtering and other applications, including real-time, adaptive optimal control. A result that makes it possible to use a neural net to solve optimization problems is described. It is shown how to formulate the linear quadratic regulator problem as a nonlinear programming problem. It is then possible to directly apply Kennedy and Chua's result to find the optimal control solution using a neural net.

Original language	English (US)
Title of host publication	Proceedings. IJCNN - International Joint Conference on Neural Networks
Editors	Anon
Publisher	Publ by IEEE
Pages	735-739
Number of pages	5
ISBN (Print)	0780301641
State	Published - 1992
Externally published	Yes
Event	International Joint Conference on Neural Networks - IJCNN-91-Seattle - Seattle, WA, USA Duration: Jul 8 1991 → Jul 12 1991

Publication series

Name	Proceedings. IJCNN - International Joint Conference on Neural Networks

Other

Other	International Joint Conference on Neural Networks - IJCNN-91-Seattle
City	Seattle, WA, USA
Period	7/8/91 → 7/12/91

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title = "Linear quadratic regulation using neural networks",

abstract = "The authors describe the use of neural networks for solving optimal control problems for discrete-time linear systems with quadratic cost functions. The result is obtained by formulating the optimal control problem as a quadratic programming problem with inequality constraints and then applying a result by M. Kennedy and L. Chua (1988). The authors present numerical examples of the method, comparisions to standard Ricatti equation solutions, and extensions to Kalman filtering and other applications, including real-time, adaptive optimal control. A result that makes it possible to use a neural net to solve optimization problems is described. It is shown how to formulate the linear quadratic regulator problem as a nonlinear programming problem. It is then possible to directly apply Kennedy and Chua's result to find the optimal control solution using a neural net.",

author = "Moore, {Kevin L.} and Subbaram Naidu",

year = "1992",

language = "English (US)",

isbn = "0780301641",

series = "Proceedings. IJCNN - International Joint Conference on Neural Networks",

publisher = "Publ by IEEE",

pages = "735--739",

editor = "Anon",

booktitle = "Proceedings. IJCNN - International Joint Conference on Neural Networks",

note = "International Joint Conference on Neural Networks - IJCNN-91-Seattle ; Conference date: 08-07-1991 Through 12-07-1991",

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TY - GEN

T1 - Linear quadratic regulation using neural networks

AU - Moore, Kevin L.

AU - Naidu, Subbaram

PY - 1992

Y1 - 1992

N2 - The authors describe the use of neural networks for solving optimal control problems for discrete-time linear systems with quadratic cost functions. The result is obtained by formulating the optimal control problem as a quadratic programming problem with inequality constraints and then applying a result by M. Kennedy and L. Chua (1988). The authors present numerical examples of the method, comparisions to standard Ricatti equation solutions, and extensions to Kalman filtering and other applications, including real-time, adaptive optimal control. A result that makes it possible to use a neural net to solve optimization problems is described. It is shown how to formulate the linear quadratic regulator problem as a nonlinear programming problem. It is then possible to directly apply Kennedy and Chua's result to find the optimal control solution using a neural net.

AB - The authors describe the use of neural networks for solving optimal control problems for discrete-time linear systems with quadratic cost functions. The result is obtained by formulating the optimal control problem as a quadratic programming problem with inequality constraints and then applying a result by M. Kennedy and L. Chua (1988). The authors present numerical examples of the method, comparisions to standard Ricatti equation solutions, and extensions to Kalman filtering and other applications, including real-time, adaptive optimal control. A result that makes it possible to use a neural net to solve optimization problems is described. It is shown how to formulate the linear quadratic regulator problem as a nonlinear programming problem. It is then possible to directly apply Kennedy and Chua's result to find the optimal control solution using a neural net.

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UR - http://www.scopus.com/inward/citedby.url?scp=0026754845&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:0026754845

SN - 0780301641

T3 - Proceedings. IJCNN - International Joint Conference on Neural Networks

SP - 735

EP - 739

BT - Proceedings. IJCNN - International Joint Conference on Neural Networks

A2 - Anon, null

PB - Publ by IEEE

T2 - International Joint Conference on Neural Networks - IJCNN-91-Seattle

Y2 - 8 July 1991 through 12 July 1991

ER -

Linear quadratic regulation using neural networks

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