Document Type
Article
Disciplines
1.2 COMPUTER AND INFORMATION SCIENCE
Abstract
Metaheuristics in recent years has proven its effectiveness; however, robust algorithms that can solve real-world problems are always needed. In this paper, we suggest the first extended version of the recently introduced gaining–sharing knowledge optimization (GSK) algorithm, named multiobjective gaining–sharing knowledge optimization (MOGSK), to deal with multiobjective optimization problems (MOPs). MOGSK employs an external archive population to store the nondominated solutions generated thus far, with the aim of guiding the solutions during the exploration process. Furthermore, fast nondominated sorting with crowding distance was incorporated to sustain the diversity of the solutions and ensure the convergence towards the Pareto optimal set, while the e- dominance relation was used to update the archive population solutions. e-dominance helps provide a good boost to diversity, coverage, and convergence overall. The validation of the proposed MOGSK was conducted using five biobjective (ZDT) and seven three-objective test functions (DTLZ) problems, along with the recently introduced CEC 2021, with fifty-five test problems in total, including power electronics, process design and synthesis, mechanical design, chemical engineering, and power system optimization. The proposed MOGSK was compared with seven existing optimization algorithms, including MOEAD, eMOEA, MOPSO, NSGAII, SPEA2, KnEA, and GrEA. The experimental findings show the good behavior of our proposed MOGSK against the comparative algorithms in particular real-world optimization problems.
DOI
https://doi.org/10.3390/ math11143092
Recommended Citation
Elhouda Chalabi, Nour; Attia, Abdelouahab; Abdulaziz Alnowibet, Khalid; Zawbaa, Hossam; Masri, Hatem; and Wagdy Mohamed, Ali, "A Multi–Objective Gaining–Sharing Knowledge-Based Optimization Algorithm for Solving Engineering Problems" (2023). Articles. 214.
https://arrow.tudublin.ie/scschcomart/214
Funder
The research is funded by the Researchers Supporting Program at King Saud University, (RSP2023R305).
Creative Commons License
This work is licensed under a Creative Commons Attribution-Share Alike 4.0 International License.
Publication Details
https://www.mdpi.com/2227-7390/11/14/3092
Chalabi, N.E.; Attia, A.; Alnowibet, K.A.; Zawbaa, H.M.; Masri, H.; Mohamed, A.W. A Multi–Objective Gaining–Sharing Knowledge-Based Optimization Algorithm for Solving Engineering Problems. Mathematics 2023, 11, 3092.
https://doi.org/10.3390/ math11143092