Bennia, FatimaBoudouda, AimadNafa, Fares2024-07-252024-07-252024https://ieeexplore.ieee.org/document/1057627210.1109/ICEEAC61226.2024.10576272https://dspace.univ-boumerdes.dz/handle/123456789/14252The importance of Wireless Power Transfer (WPT) technology in biomedical implants to mitigate the risk of regeneration has increased significantly in recent years. WPT systems are dependent on key parameters such as the coupling coefficient (K), quality factor (Q), and mutual inductance (M), which play a crucial role in determining power transfer efficiency. These parameters are closely related to the geometric characteristics of the coils involved. Therefore, this study explores various meta-heuristic algorithms to search for optimal parameters that maximize power transfer efficiency. The initial results demonstrate that these algorithms perform well across different iterations. To confirm these findings, the study conducted comprehensive validation using Ansys Maxwell software to verify the optimal values obtained through optimization.enBiomedical implantsCoupling CoefficientEfficiencyOptimizationMeta- heuristic algorithmsMutual inductanceQuality FactorWireless Power TransferArticle