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LQR and genetic algorithms: an effective duo for assessing control expenditure and performance in dynamic systems

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Silva, Josefredo G., Lacerda, Marcio J., Bertolin, Ariadne L. J., Santos, Jander and Nepomuceno, Erivelton G. (2024) LQR and genetic algorithms: an effective duo for assessing control expenditure and performance in dynamic systems. In: 2024 IEEE International Symposium on Circuits and Systems (ISCAS), 19-22 May 2024, Singapore.

Abstract

In this work, a novel methodology is introduced that employs genetic algorithms to determine the optimal weighting matrices for a linear quadratic regulator controller. A method is presented to construct a multi-objective fitness function that allows one to give prioritisation to energy consumption or other performance metrics, such as rise time, settling time, and steady-state error. To validate the effectiveness of the proposed approach, we conducted simulation studies based on a model of an inverted pendulum on a cart system. The results show a reduction of up to 30.36% in the energy of the controller and a reduction of 20.27% in its maximum value when choosing to prioritise the energy expenditure of the controller over other performance metrics, without significantly compromising the convergence of the system states. The results encompass an effective way of optimising energy expenditure in non-linear controller designs.

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Details
Title:
LQR and genetic algorithms: an effective duo for assessing control expenditure and performance in dynamic systems
Creators:
Silva, Josefredo G., Lacerda, Marcio J., Bertolin, Ariadne L. J., Santos, Jander and Nepomuceno, Erivelton G.
Identification Number:
10.1109/iscas58744.2024.10558029
Official URL:
https://doi.org/10.1109/iscas58744.2024.10558029
Date:
2 July 2024
Subjects:
600 Technology > 620 Engineering & allied operations
Department:
School of Computing and Digital Media
Publisher:
IEEE
Uncontrolled Keywords:
nonlinear dynamical systems; green algorithm; sustainable circuits and systems; LQR; inverted pendulum; measurement; energy consumption; regulators; navigation; heuristic algorithms; evolutionary computation; steady-state
Additional Information:
Copyright © 2024 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.
Record
URI:
https://repository.londonmet.ac.uk/id/eprint/9511
Item Type:
Conference or Workshop Item
Presentation Type:
Paper
Depositing User:
Pub Router
SWORD Depositor:
Pub Router
Date Deposited:
15 Jul 2024 10:34
Revision:
16
Last Modified:
16 Jul 2024 09:25
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