Publication detail
Composite Evolutionary Strategy and Differential Evolution Method for the ICSI’2022 Competition
KŮDELA, J. NEVORAL, T. HOLOUBEK, T.
English title
Composite Evolutionary Strategy and Differential Evolution Method for the ICSI’2022 Competition
Type
book chapter
Language
en
Original abstract
In this paper, a composite method for bound constrained optimization called Composite Evolutionary Strategy and Differential Evolution (CESDE) is described. This method combines two well-performing methods from the Congress on Evolutionary Computation Competitions. Through numerical investigation on the ICSI’2022 benchmark set, the favourite scheme for combining the two methods was determined, and it was found that CESDE outperforms both of its “parental” methods on all studied instances.
English abstract
In this paper, a composite method for bound constrained optimization called Composite Evolutionary Strategy and Differential Evolution (CESDE) is described. This method combines two well-performing methods from the Congress on Evolutionary Computation Competitions. Through numerical investigation on the ICSI’2022 benchmark set, the favourite scheme for combining the two methods was determined, and it was found that CESDE outperforms both of its “parental” methods on all studied instances.
Keywords in English
ICSI’2022 competition; Evolutionary strategy; Differential evolution; Numerical optimization; Composite method
Released
26.06.2022
Publisher
Springer, Cham
ISBN
978-3-031-09726-3
Book
Advances in Swarm Intelligence. ICSI 2022, Part II. Lecture Notes in Computer Science, vol 13345.
Pages from–to
432–439
Pages count
8
BIBTEX
@inbook{BUT178337,
author="Jakub {Kůdela} and Tomáš {Nevoral} and Tomáš {Holoubek},
title="Composite Evolutionary Strategy and Differential Evolution Method for the ICSI’2022 Competition",
booktitle="Advances in Swarm Intelligence. ICSI 2022, Part II. Lecture Notes in Computer Science, vol 13345.",
year="2022",
month="June",
pages="432--439",
publisher="Springer, Cham",
isbn="978-3-031-09726-3"
}