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  • ارائه مدل ریاضی چند هدفه برنامه‌ریزی تولید فازی چند محصولی و چند مرحله‌ای برای چند دوره در نرم افزار گمز

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رقم المقالة : IMJ-2101-1526 (R1) زيارة : 127 الصفحة: 99 - 112

10.30495/imj.2022.691476

نوع المخطوط: ابحاث

ارائه مدل ریاضی چند هدفه برنامه‌ریزی تولید فازی چند محصولی و چند مرحله‌ای برای چند دوره در نرم افزار گمز

الموضوعات :

Aslan Doosti 1 , saeid Rezaie Moghadam saeid Rezaie Moghadam 2

1 - Department of Mathematics, Omidiyeh Branch, Islamic Azad University, Omidiyeh, Iran.
2 - managemet.faculty of azad university

تاريخ الإرسال : 20 الإثنين , جمادى الأولى, 1442 تاريخ التأكيد : 09 الجمعة , ربيع الأول, 1443 تاريخ الإصدار : 28 الأحد , شوال, 1443

الکلمات المفتاحية: فازی, چند محصولی, مدل ریاضی چند هدفه, چند مرحله‌ای, برنامه‌ریزی تولید,

ملخص المقالة :

در فرایندهای تولیدی و خدماتی مواجهه با شرایط عدم قطعیت و تغییر در مقدار داده‌های مورداستفاده در مدل باعث ایجاد پارامترهای متغیر می‌شود و بنابراین انتظار وجود چنین شرایطی در تصمیم‌گیری غیرعادی نیست. لذا عدم توجه به این‌گونه تغییرات، موجب انحراف در برنامه‌ریزی و دور شدن از شرایط واقعی شده و ضررهای فراوانی را در محیط‌های مذکور ایجاد می‌نماید. با توجه به اهمیت موضوع، در این مقاله از رویکرد بهینه‌سازی فازی جهت مقابله با عدم قطعیت در پارامترهای عدم اطمینان مراحل تولید و کیفیت محصول تولیدی در مرکز تولیدکننده و مرکز بازسازی مدل استفاده می‌شود. پژوهش حاضر درصدد است با طراحی مدل ریاضی برنامه تولید چندهدفه و بهینه‌سازی آن به‌گونه‌ای عمل نماید که هزینه موجودی، تولید و نیروی انسانی حداقل شود و میزان حداکثر کیفیت محصول تولیدی و حداکثر سازی بیشترین وقوع عدم اطمینان در هر مرحله از تولید که سبب تشخیص گلوگاه کاری می‌شود، موجب افزایش سودآوری شرکت قطعات بتنی بروجن استحکام شود. نتایج حاصل از حل مدل با کد نویسی در نرم‌افزار گمز و با استفاده از روش معیار جامع شامل مقادیر توابع هدف و متغیرهای تصمیم می‌باشدکه نتایج مورد تائید مسئولین شرکت قطعات بتنی بروجن استحکام واقع شدند.

المصادر:


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_||_

  1. Aghajani, F., & Mirzapour Al-e-hashem, M. J. (2020). A multi-objective mathematical model for production-distribution scheduling problem. Journal of Industrial and Systems Engineering, 13 (Special issue: 16th International Industrial Engineering Conference), 121-132.‏
    2.
  2. Azar, A., Andalib Ardakani, D., & Mir Fakhr-Al-Dini, S. H. (2012). Designing a mathematical model of production planning deficit with a fuzzy approach studied. Middle East Furniture Company, Quarterly Journal of Industrial Management Studies. (22):23-40. (In Persian).
    3.
  3. Azar, A., & Farrokh, M. (2020). Mathematical programming in the uncertainty of stochastic, fuzzy and solid approaches. Organization for the Study and Compilation of University Humanities Books. (In Persian).
    4.
  4. Azar, A., & Sadat Hosseini, A. (2014). Designing a multi-product production planning model in the supply chain based on the ideal planning approach Case study: Burns Industrial Group, Quarterly Journal of Industrial Meditation Studies, 12 (34), 1-17. (In Persian).
    5.
  5. Esteso, A., Alemany, M. M. E., Ortiz, Á., & Peidro, D. (2018). A multi-objective model for inventory and planned production reassignment to committed orders with homogeneity requirements. Computers & Industrial Engineering124, 180-194.
    6.
  6. Gholamrezaei, R. M., & Zare, H. K. (2015). A Model Of Production Planning With Multi-Product, Multi Time Period. Production And Operations Management, 1(10), 61- 78. (In Persian)
    7.
  7. Gholamrezaei, R. M., & Zare, H. K. (2015). Development of a multi-product, multi-period and multi-objective production planning model with fuzzy parameters. Production and Operations Management Quarterly, 6 (1). (In Persian)
    8.
  8. Razavi Hajiagha, S. H., Hashemi, S., & Sadeghi, M. (2019). Hybrid fuzzy-stochastic approach to multi-product, multi-period, and multi-resource master production scheduling problem: Case of a polyethylene pipe and fitting manufacturer. Scientia Iranica, 26(3), 1809-1823.
    9.
  9. Hosseini, M. A., Ehsanfar, B., & Akhavan, A. (2015). Modeling and Problem Solving Multi-objective Production Planning in Fuzzy Conditions Using Hierarchical Analysis Approach, International Conference on Applied Research in Management, Industrial Engineering, Economics and Accounting with Acquisition Development Approach And work . (In Persian)
    10.
  10. Khodaei Ardakani, P., Pouya, A., & Effati, S. (2014). Design of Fuzzy Multi-Objective Linear Planning Model in Production Planning (Case Study: Golchakan Zamani Factory) Thesis of the Ministry of Science, Research and Technology - Ferdowsi University of Mashhad - Faculty of Economics and Administrative Sciences. (In Persian)
    11.
  11. Liu, J., Li, C., Yang, F., Wan, H., & Uzsoy, R. (2011, December). Production planning for semiconductor manufacturing via simulation optimization. In Proceedings of the 2011 winter simulation conference (WSC) (pp. 3612-3622). IEEE.‏
    12.
  12. Nagarur, N., Vrat, P., & Duongsuwan, W. (1997). Production planning and scheduling for injection moulding of pipe fittings A case study. International journal of production economics, 53(2), 157-170.
    13.
  13. Nobil, A. H., & Kazemi, A. (2016). Presenting a multi-objective fuzzy model for integrated production-distribution planning in a four-level closed-loop supply chain. International Journal of Industrial Engineering and Production Management 27(1). (in persian)
    14.
  14. Ramyar, M., Mehdizadeh, E., & Hadji Molana, M. (2017). Optimizing reliability and cost of system for aggregate production planning in supply chain. Scientia Iranica, 24(6), 3394-3408.
    15.
  15. Razavi, S. H. H. A., Akrami, H., & Hashemi, S. S. (2013). Fuzzy Interactive Approach to Solve Multi-Product Multi-Product Production Planning Problem, Journal of Industrial Management Studies (In Persian)
    16.
  16. Rezaei nik, E., & Asadi Zeidabadi, S. (2016). Presenting a Multi-Objective Production Planning Model Based on Scenario-Based Approach in the Uncertainty Environment of Non-Governmental Higher Education Institutions - Sajjad University of Technology - Faculty of Industrial Engineering (In Persian).
    17.
  17. Rezaie Moghaddam, S., Yousefi, A., Karbasian, M., & Khayyam, B. B. (2018). A robust optimization model for multi-factory integrated production planning of perishable products under conditions of uncertainty with consideration of deferral policy, Quarterly Journal of Industrial Management Studies, 43, 27-51. (In Persian)
    18.
  18. Rezig, S., Ezzeddine, W., Turki, S., & Rezg, N. (2020). Mathematical Model for Production Plan Optimization—A Case Study of Discrete Event Systems. Mathematics, 8(6), 955.
    19.
  19. Salamati Hormozi, H., Shahraky, M. (2016). Fuzzy production planning model with production time window and failure of orders in the production production system in order to order. 4th Joint Congress of Fuzzy and Intelligent Systems of Iran. (In Persian).
    20.
  20. Salehi, M., Kamalabadi, I. N., & Hamzehi, A. (2011). Production planning model for several products, several products and several periods under special demand Fourth International Conference of the Iranian Association for Opereation Research. (In Persian)
    21.
  21. Tolouei Ashlaghi, A., Ehtesham, R. R., Nazemi, J., & Alborzi, M. (2014). Design and Mathematical Model of Production Planning Process and Inventory Control in Reverse Supply Chain, Journal of Development and Transformation Management, 8. (In Persian)
    22.

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