Görçün, Ömer FarukAytekin, AhmetGorcun, Omer FarukEcer, FatihPamucar, DraganKarama, Caglar2023-10-192023-10-192022160368-492X1758-7883https://doi.org/10.1108/K-04-2022-0508https://hdl.handle.net/20.500.12469/5204Purpose Pharmaceutical supply chains (PSCs) need a well-operating and faultless logistics system to successfully store and distribute their medicines. Hospitals, health institutes, and pharmacies must maintain extra stock to respond requirements of the patients. Nevertheless, there is an inverse correlation between the level of medicine stock and logistics service level. The high stock level held by health institutions indicates that we have not sufficiently excellent logistics systems presently. As such, selecting appropriate logistics service providers (drug distributors) is crucial and strategic for PSCs. However, this is difficult for decision-makers, as highly complex situations and conflicting criteria influence such evaluation processes. So, a robust, applicable, and strong methodological frame is required to solve these decision-making problems. Design/methodology/approach To achieve this challenging issue, the authors develop and apply an integrated entropy-WASPAS methodology with Fermatean fuzzy sets for the first time in the literature. The evaluation process takes place in two stages, as in traditional multi-criteria problems. In the first stage, the importance levels of the criteria are determined by the FF-entropy method. Afterwards, the FF-WASPAS approach ranks the alternatives. Findings The feasibility of the proposed model is also supported by a case study where six companies are evaluated comprehensively regarding ten criteria. Herewith, total warehouse capacity, number of refrigerated vehicles, and personnel are the top three criteria that significantly influence the evaluation of pharmaceutical distribution and warehousing companies. Further, a comprehensive sensitivity analysis proves the robustness and effectiveness of the proposed approach. Practical implications The proposed multi-attribute decision model quantitatively aids managers in selecting logistics service providers considering imprecisions in the multi-criteria decision-making process. Originality/value A new model has been developed to present a sound mathematical model for selecting logistics service providers consisting of Fermatean fuzzy entropy and WASPAS methods. The paper's main contribution is presenting a comprehensive and more robust model for the ex ante evaluation and ranking of providers.eninfo:eu-repo/semantics/closedAccessGroup Decision-MakingSupply ChainRank Reversal3rd-Party LogisticsSelectionModelPerformanceCriteriaAhpExtensionGroup Decision-MakingSupply ChainRank Reversal3rd-Party LogisticsSelectionPharmaceutical distribution and warehousingModelPharmaceutical supply chainsPerformanceSupply chain managementCriteriaFermatean fuzzy setsAhpFermatean entropyExtensionFermatean WASPASArticleWOS:00083643270000110.1108/K-04-2022-05082-s2.0-85135496053N/AQ1