A Hybrid Heuristic Algorithm to Provide a Multi-Objective Fuzzy Supply Chain Model with a Passive Defense Approach

  • سال انتشار: 1401
  • محل انتشار: مجله کنترل و بهینه سازی در ریاضیات کاربردی، دوره: 7، شماره: 1
  • کد COI اختصاصی: JR_COAM-7-1_004
  • زبان مقاله: انگلیسی
  • تعداد مشاهده: 252
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نویسندگان

Hamidreza ‎Ayoughi

Department of Industrial Management‎, ‎South Tehran Branch‎, ‎Islamic Azad University‎, ‎Tehran‎, ‎Iran‎

Hossein ‎Dehghani Poudeh

Department of Management‎, ‎Malek Ashtar University of Technology‎, ‎Faculty of Management‎, ‎Tehran‎, ‎Iran

Abbas Raad

Department of Management‎, ‎Shahid Beheshti University‎, ‎Faculty of Management and Accounting‎, ‎Tehran‎, ‎Iran

Davood Talebi

Department of Management‎, ‎Shahid Beheshti University‎, ‎Faculty of Management and Accounting‎, ‎Tehran‎, ‎Iran

چکیده

‎‎‎In this paper‎, ‎a stable multi-objective model of location‎, ‎inventory‎, ‎and supply chain routing is presented under conditions of uncertainty and using a passive defense approach‎. ‎Parameters such as demand‎, ‎cost of setting up the facility and cost of maintaining inventory are considered uncertain and in the form of triangular fuzzy numbers‎.‎ ‎Also‎, ‎in order to increase supply chain resilience‎, ‎the characteristics and capabilities of passive defense in the supply chain‎, ‎such as ``ready flow rate''‎, ‎``security of backup routes''‎, ‎``possibility of deployment of resources and equipment''‎, ‎and ``the principle of dispersion for location'' are considered‎. ‎Multipurpose‎, ‎multipartite algorithms‎, ‎based on the Pareto archive and genetic algorithm‎, ‎are used to solve the model‎. ‎‎The results of validation show that the proposed model is valid and feasible‎, ‎and the proposed algorithm is also valid and converges to the optimal solution. ‎Sample problems‎, ‎in three groups of small‎, ‎medium and large‎, ‎are solved by two algorithms‎, ‎and the results are compared based on quality‎, ‎dispersion‎, ‎uniformity and execution time‎.‎ ‎The results of this section show that in all cases‎, ‎the multi-objective particle mass algorithm has a higher ability than the GA to produce solutions of higher quality and to explore and extract the scalable area of‎ ​‎​the solution. ‎Also‎, ‎the comparison of the execution times of the algorithms indicates that the multi-objective particle mass algorithm has a higher solution time.

کلیدواژه ها

Supply chain‎, ‎Sustainability‎, ‎Passive defense‎, ‎Multi-objective fuzzy optimization‎, ‎Meta-heuristic algorithm

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