Introducing a fuzzy robust integrated model for optimizing humanitarian supply chain processes

سال انتشار: 1402
نوع سند: مقاله ژورنالی
زبان: انگلیسی
مشاهده: 121

فایل این مقاله در 27 صفحه با فرمت PDF قابل دریافت می باشد

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این مقاله:

شناسه ملی سند علمی:

JR_APRIE-10-3_007

تاریخ نمایه سازی: 1 اردیبهشت 1403

چکیده مقاله:

The natural disasters of the last few decades clearly reveal that natural disasters impose high financial and human costs on governments and communities. Concerns in this regard are growing day by day. Making the right decisions and taking appropriate and timely measures in each phase of the crisis management cycle will reduce potential damage at the time of the disaster and reduce the vulnerability of society. Therefore, in this research, a mathematical model of crisis logistics planning considering the problem of primary and secondary crisis in disaster relief is introduced, which is the innovation of this research. In the primary crisis, the goal is to provide services and relief goods to crisis areas, and in the second stage, the secondary crisis that occurs after the primary crisis seeks to provide relief to crisis centers and transfer the injured to relief centers.  Therefore, this research proposes a mathematical fuzzy ideal programming model in two primary and secondary crises. In the primary crisis, the goal is to provide services and relief goods to crisis-stricken areas. The secondary crisis, which occurs after the primary crisis, aims to support crisis-stricken centers and move injured people to relief bases in the second step. According to the proposed model, Bertsimas-Sim’s fuzzy programming that formulation proposed by Bertsimas and Sim [۱] and robust approach we initially used. The Epsilon constraint method was used to solve the low-dimensional model. Multi-objective meta-heuristic algorithms have been designed to handle the computational complexity of large-scale real-time problems. Multiple comparisons and analyses have been proposed to assess the performance of the model and problem-solving capabilities. The results indicate that the proposed approach can be applied and implemented to develop a real-world humanitarian logistics network.

کلیدواژه ها:

Critical Logistics ، Primary and Secondary Crises ، Fuzzy Robust Integrated Programming ، meta-heuristic algorithm

نویسندگان

Meysam Donyavi Rad

Department of Management, College of Human Science, Saveh Branch, Islamic Azad University, Saveh, Iran.

Ehsan Sadeh

Department of Management, College of Human Science, Saveh Branch, Islamic Azad University, Saveh, Iran.

Zeinolabedin Amini Sabegh

Department of Management, College of Human Science, Saveh Branch, Islamic Azad University, Saveh, Iran.

Reza Ehtesham Rasi

Department of Industrial Management, Qazvin Branch, Islamic Azad University, Qazvin, Iran.

مراجع و منابع این مقاله:

لیست زیر مراجع و منابع استفاده شده در این مقاله را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود مقاله لینک شده اند :
  • Bertsimas, D., & Sim, M. (۲۰۰۴). The price of robustness. ...
  • Cao, C., Li, C., Yang, Q., Liu, Y., & Qu, ...
  • Safaei, A. S., Farsad, S., & Paydar, M. M. (۲۰۱۸). ...
  • Ghatreh Samani, M. R., Torabi, S. A., & Hosseini-Motlagh, S. ...
  • Jha, A., Acharya, D., & Tiwari, M. K. (۲۰۱۷). Humanitarian ...
  • Goli, A., Bakhshi, M., & Babaee Tirkolaee, E. (۲۰۱۷). A ...
  • Rodríguez-Espíndola, O., Albores, P., & Brewster, C. (۲۰۱۸). Disaster preparedness ...
  • Chapman, A. G., & Mitchell, J. E. (۲۰۱۸). A fair ...
  • Yu, L., Zhang, C., Yang, H., & Miao, L. (۲۰۱۸). ...
  • Vahdani, B., Veysmoradi, D., Noori, F., & Mansour, F. (۲۰۱۸). ...
  • Mohammadi, R., Ghomi, S. M. T. F., & Jolai, F. ...
  • Zahiri, B., Torabi, S. A., & Tavakkoli-Moghaddam, R. (۲۰۱۷). A ...
  • Salehi, F., Mahootchi, M., & Husseini, S. M. M. (۲۰۱۹). ...
  • Khatami, M., Mahootchi, M., & Farahani, R. Z. (۲۰۱۵). Benders’ ...
  • Zokaee, S., Bozorgi-Amiri, A., & Sadjadi, S. J. (۲۰۱۶). A ...
  • Alem, D., Clark, A., & Moreno, A. (۲۰۱۶). Stochastic network ...
  • Cavdur, F., Kose-Kucuk, M., & Sebatli, A. (۲۰۱۶). Allocation of ...
  • Xu, J., Yin, X., Chen, D., An, J., & Nie, ...
  • Ouyed, O., & Allili, M. S. (۲۰۲۰). Group-of-features relevance in ...
  • Ling, H. F., Su, Z. L., Jiang, X. L., & ...
  • Saatchi, H. M., Khamseh, A. A., & Tavakkoli-Moghaddam, R. (۲۰۲۱). ...
  • Makalesi, A., Hallak, J., & Miç, P. (۲۰۲۱). Multi criteria ...
  • Abazari, S. R., Aghsami, A., & Rabbani, M. (۲۰۲۱). Prepositioning ...
  • Momeni, B., Aghsami, A., & Rabbani, M. (۲۰۱۹). Designing humanitarian ...
  • Sarma, D., Das, A., Dutta, P., & Bera, U. K. ...
  • Dachyar, M., & Nilasari, T. (۲۰۲۰). The improvement of disaster ...
  • Cao, C., Liu, Y., Tang, O., & Gao, X. (۲۰۲۱). ...
  • Abounacer, R., Rekik, M., & Renaud, J. (۲۰۱۴). An exact ...
  • Aghajani, M., & Torabi, S. A. (۲۰۲۰). A mixed procurement ...
  • Liang, B., & Han, S. (۲۰۱۹). Modeling and simulation of ...
  • Boonmee, C., Arimura, M., & Asada, T. (۲۰۱۷). Facility location ...
  • Kahraman, C. (۲۰۱۶). Multiattribute warehouse location selection in humanitarian logistics ...
  • Barbarosolu, G., Özdamar, L., & Çevik, A. (۲۰۰۲). An interactive ...
  • Chen, A. Y., & Yu, T. Y. (۲۰۱۶). Network based ...
  • Chu, X., & Zhong, Q. Y. (۲۰۱۵). Post-earthquake allocation approach ...
  • De Angelis, V., Mecoli, M., Nikoi, C., & Storchi, G. ...
  • Fahimnia, B., Jabbarzadeh, A., Ghavamifar, A., & Bell, M. (۲۰۱۷). ...
  • Fereiduni, M., & Shahanaghi, K. (۲۰۱۷). A robust optimization model ...
  • Zhao, M., & Liu, X. (۲۰۱۸). Development of decision support ...
  • Papi, A., Pishvaee, M., & Jabbarzadeh, A. (۲۰۱۹). Robust optimal ...
  • Roh, S. Y., Shin, Y. R., & Seo, Y. J. ...
  • Inuiguchi, M., & Ramík, J. (۲۰۰۰). Possibilistic linear programming: A ...
  • نمایش کامل مراجع