PSO, a Swarm Intelligence-Based Evolutionary Algorithm as a Decision-Making Strategy: A Review

Companies are constantly changing in their organization and the way they treat information. In this sense, relevant data analysis processes arise for decision makers. Similarly, to perform decision-making analyses, multi-criteria and metaheuristic methods represent a key tool for such analyses. Thes...

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Bibliographic Details
Published in:Symmetry (Basel) 2022-03, Vol.14 (3), p.455
Main Authors: Ramírez-Ochoa, Dynhora-Danheyda, Pérez-Domínguez, Luis Asunción, Martínez-Gómez, Erwin-Adán, Luviano-Cruz, David
Format: Article
Language:English
Subjects:
analysis and decision making
Copyright
Data analysis
Decision analysis
Decision making
Evolutionary algorithms
Genetic algorithms
Harvesting
Heuristic methods
Insulin
Literature reviews
metaheuristics
Methods
multi-criteria methods for decision making (MCDM)
Multiple criterion
Optimization
optimization methods
particle swarm lgorithm (PSO)
Particle swarm optimization
Route planning
Scientific papers
Software
Swarm intelligence
Symmetry
Websites
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Summary:Companies are constantly changing in their organization and the way they treat information. In this sense, relevant data analysis processes arise for decision makers. Similarly, to perform decision-making analyses, multi-criteria and metaheuristic methods represent a key tool for such analyses. These analysis methods solve symmetric and asymmetric problems with multiple criteria. In such a way, the symmetry transforms the decision space and reduces the search time. Therefore, the objective of this research is to provide a classification of the applications of multi-criteria and metaheuristic methods. Furthermore, due to the large number of existing methods, the article focuses on the particle swarm algorithm (PSO) and its different extensions. This work is novel since the review of the literature incorporates scientific articles, patents, and copyright registrations with applications of the PSO method. To mention some examples of the most relevant applications of the PSO method; route planning for autonomous vehicles, the optimal application of insulin for a type 1 diabetic patient, robotic harvesting of agricultural products, hybridization with multi-criteria methods, among others. Finally, the contribution of this article is to propose that the PSO method involves the following steps: (a) initialization, (b) update of the local optimal position, and (c) obtaining the best global optimal position. Therefore, this work contributes to researchers not only becoming familiar with the steps, but also being able to implement it quickly. These improvements open new horizons for future lines of research.
ISSN:2073-8994
2073-8994
DOI:10.3390/sym14030455