Celik, Emre2021-12-012021-12-0120200952-19761873-6769https://doi.org/10.1016/j.engappai.2019.103294https://hdl.handle.net/20.500.12684/10215This paper suggests a new variation to the existing symbiotic organisms search (SOS) algorithm developed by simulating three symbiotic strategies of mutualism, commensalism and parasitism used by the organisms. In the revised version called improved SOS (ISOS), the theory of quasi-oppositional based learning is employed during generation of initial population and in the parasitism phase to raise the possibility of getting closer to high-quality solutions. An efficient alternative for parasitism phase is also presented. The two upgraded parasitism strategies avoid the over exploration issue of original parasitism phase that causes unwanted longtime search in the inferior search space as the solution is already refined. To guide the algorithm perform an exhaustive search around the best solution in attempting to further improve the search model of ISOS, a chaotic local search based on the piecewise linear chaotic map is coupled into the proposed algorithm. Twentysix benchmark functions and three engineering design problems are tested and a contrast with other popular metaheuristics is widely established. Comparative results substantiate the great contribution of proposed ISOS algorithm in solving various optimization problems with superior global search capability and convergence characteristics which render it useful in handling global optimization problems.en10.1016/j.engappai.2019.103294info:eu-repo/semantics/openAccessSymbiotic organisms searchQuasi-oppositional based learningChaotic theoryLocal searchBenchmark functionEngineering designGlobal optimizationAutomatic Voltage RegulatorHybrid Genetic AlgorithmPid ControllerPerformance AnalysisEfficient DesignOppositionArticle872-s2.0-85073531238WOS:000506715100030Q1Q1