Skip to main content
Have a personal or library account? Click to login
Comparative Analysis of Population Initialization Strategies in Metaheuristic Optimization Cover

Comparative Analysis of Population Initialization Strategies in Metaheuristic Optimization

Open Access
|Jun 2026

Abstract

Metaheuristic algorithms depend on population initialization to ensure an effective balance between exploration and exploitation in complex search spaces. Randomly initialized populations result in uneven coverage and premature convergence, especially in high-dimensional or multimodal problem landscapes. In this study, we investigate traditional and seven advanced population initialization techniques, including quasi-random sequence, chaotic map, opposition-based, knowledge-based, hybrid, and machine learning-based approaches. We discuss their theoretical foundations, computational complexity, and practical effectiveness. Findings suggest quasi-random initialization improves convergence for medium-dimensioned problems, chaotic population initialization improves convergence for multimodal search landscapes, and machine learning techniques adapt to very-high-dimensional optimization problems. Advanced techniques increase computational cost but significantly improve convergence rate and algorithm robustness. Such insights can assist researchers and practitioners in selecting appropriate initialization techniques for the complexity of their problems, and also indicate the direction of future research into intelligent and adaptive initialization techniques.

DOI: https://doi.org/10.2478/cait-2026-0016 | Journal eISSN: 1314-4081 | Journal ISSN: 1311-9702
Language: English
Page range: 97 - 114
Submitted on: Mar 9, 2026
Accepted on: Mar 24, 2026
Published on: Jun 13, 2026
In partnership with: Paradigm Publishing Services

© 2026 Zainab O. Falah, Maytham Alabbas, published by Bulgarian Academy of Sciences, Institute of Information and Communication Technologies
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.