The existing variants of the Differential Evolution (DE) algorithm come with certain limitations, such as poor local search and susceptibility to premature convergence. This study introduces Adaptive Differential Evolution with Diversification (ADED), a method that dynamically modifies the neighborhood structure by evaluating the trial solutions' fitness. Developed to work with both convex and nonconvex objective functions, ADED is validated with 22 benchmark functions, including Rosenbrock, Rastrigin, Ackley, and DeVilliers-Glasser02. The development is carried out in Google Cloud using Jupyter Notebook and Python v3.10.12, with additional testing conducted on the multi-objective benchmark ZDT test suite. ADED distinguishes itself with its adaptive and diverse approach, which includes adaptive mutation and crossover-rates, diverse mutation tactics, diversification measurements, local search mechanisms, and convergence monitoring. The unique combination of these features collectively enhances ADED's effectiveness in navigating complex and diverse landscapes, positioning it as a promising tool for addressing challenges in both single- and multi-objective optimization scenarios.
翻译:暂无翻译