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Main Authors: Bernardo, Rodrigo M. C., Torres, Delfim F. M., Herdeiro, Carlos A. R., Santos, Marco P. Soares dos
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2406.00084
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author Bernardo, Rodrigo M. C.
Torres, Delfim F. M.
Herdeiro, Carlos A. R.
Santos, Marco P. Soares dos
author_facet Bernardo, Rodrigo M. C.
Torres, Delfim F. M.
Herdeiro, Carlos A. R.
Santos, Marco P. Soares dos
contents Control algorithms have been proposed based on knowledge related to nature-inspired mechanisms, including those based on the behavior of living beings. This paper presents a review focused on major breakthroughs carried out in the scope of applied control inspired by the gravitational attraction between bodies. A control approach focused on Artificial Potential Fields was identified, as well as four optimization metaheuristics: Gravitational Search Algorithm, Black-Hole algorithm, Multi-Verse Optimizer, and Galactic Swarm Optimization. A thorough analysis of ninety-one relevant papers was carried out to highlight their performance and to identify the gravitational and attraction foundations, as well as the universe laws supporting them. Included are their standard formulations, as well as their improved, modified, hybrid, cascade, fuzzy, chaotic and adaptive versions. Moreover, this review also deeply delves into the impact of universe-inspired algorithms on control problems of dynamic systems, providing an extensive list of control-related applications, and their inherent advantages and limitations. Strong evidence suggests that gravitation-inspired and black-hole dynamic-driven algorithms can outperform other well-known algorithms in control engineering, even though they have not been designed according to realistic astrophysical phenomena and formulated according to astrophysics laws. Even so, they support future research directions towards the development of high-sophisticated control laws inspired by Newtonian/Einsteinian physics, such that effective control-astrophysics bridges can be established and applied in a wide range of applications.
format Preprint
id arxiv_https___arxiv_org_abs_2406_00084
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Universe-inspired algorithms for Control Engineering: A review
Bernardo, Rodrigo M. C.
Torres, Delfim F. M.
Herdeiro, Carlos A. R.
Santos, Marco P. Soares dos
Optimization and Control
Control algorithms have been proposed based on knowledge related to nature-inspired mechanisms, including those based on the behavior of living beings. This paper presents a review focused on major breakthroughs carried out in the scope of applied control inspired by the gravitational attraction between bodies. A control approach focused on Artificial Potential Fields was identified, as well as four optimization metaheuristics: Gravitational Search Algorithm, Black-Hole algorithm, Multi-Verse Optimizer, and Galactic Swarm Optimization. A thorough analysis of ninety-one relevant papers was carried out to highlight their performance and to identify the gravitational and attraction foundations, as well as the universe laws supporting them. Included are their standard formulations, as well as their improved, modified, hybrid, cascade, fuzzy, chaotic and adaptive versions. Moreover, this review also deeply delves into the impact of universe-inspired algorithms on control problems of dynamic systems, providing an extensive list of control-related applications, and their inherent advantages and limitations. Strong evidence suggests that gravitation-inspired and black-hole dynamic-driven algorithms can outperform other well-known algorithms in control engineering, even though they have not been designed according to realistic astrophysical phenomena and formulated according to astrophysics laws. Even so, they support future research directions towards the development of high-sophisticated control laws inspired by Newtonian/Einsteinian physics, such that effective control-astrophysics bridges can be established and applied in a wide range of applications.
title Universe-inspired algorithms for Control Engineering: A review
topic Optimization and Control
url https://arxiv.org/abs/2406.00084