Research Area: Metaheuristic Computing
This study develops a novel metaheuristic algorithm that is motivated by the behavior of jellyfish in the ocean and is called artificial Jellyfish Search (JS) optimizer. The simulation of the search behavior of jellyfish involves their following the ocean current, their motions inside a jellyfish swarm (active motions and passive motions), a time control mechanism for switching among these movements, and their convergences into jellyfish bloom. JS optimizer is tested using a comprehensive set of mathematical benchmark functions and applied to a series of structural engineering problems. Fifty small/average-scale and twenty-five large-scale functions involving various dimensions were used to validate JS optimizer, which was compared with ten well-known metaheuristic algorithms. JS optimizer was found to outperform those algorithms in solving mathematical benchmark functions. The JS algorithm was then used to solve structural optimization problems, including 25-bar tower design, 52-bar tower design and 582-bar tower design problems. In those cases, JS not only performed best but also required the fewest evaluations of objective functions. Therefore, JS is potentially an excellent metaheuristic algorithm for solving optimization problems.
Keywords:
metaheuristic algorithm
Jellyfish
time control mechanism
mathematical benchmark function
structural optimization
Author(s) Name: Jui-Sheng Chou, Dinh-Nhat Truong
Journal name: Applied Mathematics and Computation
Conferrence name:
Publisher name: Elsevier
DOI: 10.1016/j.amc.2020.125535
Volume Information: Volume 389
