Akademik Veri Yönetim Sistemi
BIOMIMETICS (BASEL), cilt.11, sa.6, ss.390-443, 2026 (SCI-Expanded, Scopus)
Biomimetic optimizers are increasingly used to solve complex engineering problems, yet
their performance depends strongly on how effectively they preserve diversity while
maintaining selection pressure toward promising regions. In this study, the Starfish Optimization Algorithm (SFOA) is enhanced through fitness–distance-aware selection control,
leading to two improved variants: Fitness–Distance Balance Starfish Optimization Algorithm (FDBSFOA) and Dynamic Fitness–Distance Balance Starfish Optimization Algorithm
(dFDBSFOA). The proposed framework guides candidate selection using both solution
quality and spatial diversity relative to the current best solution, while the dynamic variant
further adapts this balance over the course of the search to improve exploration in early
iterations and exploitation near convergence. The proposed methods are evaluated on
the IEEE CEC2017, CEC2020, and CEC2022 benchmark suites under a unified maximum
function evaluation budget, MaxFEs = 10,000 × D, with 21 independent runs, and are
further validated on constrained engineering design problems. Performance is assessed
using convergence behavior, robustness indicators, computational overhead, and nonparametric statistical tests. The results show that the proposed variants improve the robustness
and search efficiency of baseline SFOA, with dFDBSFOA providing the most consistent
overall performance while introducing a controlled and interpretable computational overhead. These findings suggest that diversity-aware selection can serve as an effective design
principle for strengthening biomimetic optimization frameworks. The current study focuses mainly on continuous, single-objective, and stationary benchmark problems, while
the engineering-design validation also includes constrained and discrete/integer-coded
cases. Extending the proposed strategy to dynamic, noisy, large-scale mixed-integer, or
multi-objective settings remains future work.