Research Article
Year 2020,
Volume: 2 Issue: 2, 44 - 49, 31.12.2020
Abstract
Supply chain management philosophy has been adopted by enterprises due to the requirement of customer demand satisfaction in reasonable times under market competition. In case of rapid increase in product demands and/or occurrence of supply problems in materials, enterprises choose holding some amount of safety stock of several materials and products. In this study, a multi-period, multi-product supply chain with different suppliers, material storages, production plants, distribution centers and customers is modeled. To determine the optimal production, supply and storage plans at minimum cost, a mixed-integer programming model is proposed. Capacity, bill-of-materials structure of products and placement of safety stocks are taken into account within the proposed model. Solutions of a set of examples are also presented in order to test the model.
References
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- Aliev, R. A., Fazlollahi, B., Guirimov, B. G., Aliev, R. R., (2007), “Fuzzy-genetic approach to aggregate production–distribution planning in supply chain management”, Information Sciences, Vol. 177, pp. 4241-4255.
- Cóccola M. O., Méndez, C. A., Dondo, R. G., (2020), “A two-stage procedure for efficiently solving the integrated problem of production, inventory, and distribution of industrial products”, Computers and Chemical Engineering, 134, 106690
- Costantino, N., Dotoli, M., Falagario, M., Fanti, M. P., Mangini, A. M., (2012), “A model for supply management of agile manufacturing supply chains”. International Journal of Production Economics, Vol. 135, pp. 451-457.
- Ghadimi F., Aouam, T., (2021), “Planning capacity and safety stocks in a serial production–distribution system with multiple products, European Journal of Operational Research, 289, pp. 533–552.
- Graves, S. C., Willems, S. P., (2005), “Optimizing the Supply Chain Configuration for New Products”, Management Science, Vol. 51, pp. 1165-1180.
- Guarnaschelli, A., Salomone H. E., Méndez, C. A., (2020). “A stochastic approach for integrated production and distribution planning in dairy supply chains”, Computers & Chemical Engineering, 140, 106966.
- Khalifehzadeh, S., Seifbarghy, M., Naderi, B., (2017), “Solving a fuzzy multi objective model of a production–distribution system using meta-heuristic based approaches”. Journal of Intelligent Manufacturing, Vol. 28, pp. 95-109.
- Lakhal, S., Martel, A., Kettani, O., Oral, M., (2001), “On the optimization of supply chain networking decisions”, European Journal of Operational Research, Vol. 129, pp. 259-270.
- Liang, T.-F., (2008), “Fuzzy multi-objective production/distribution planning decisions with multi-product and multi-time period in a supply chain”, Computers & Industrial Engineering, Vol. 55, pp. 676-694.
- Miranda, P. L., Morabito, R., Ferreira, D., (2018). “Optimization model for a production, inventory, distribution and routing problem in small furniture companies”. TOP, Vol. 26, pp. 30-67.
- Paksoy, T., Özceylan, E., Weber, G.-W., (2012), “Profit oriented supply chain network optimization”, Central European Journal of Operations Research, Vol. 21, pp. 455-478.
- Rafiei, H., Safaei, F., Rabbani M., (2018)., “Integrated production-distribution planning problem in a competition-based four-echelon supply chain”. Computers & Industrial Engineering, Vol. 119, pp. 85–99.
- Romeijn, H. E., Shu, J., Teo, C.-P., (2007), “Designing two-echelon supply networks”, European Journal of Operational Research, Vol. 178, pp. 449-462.
- Santoso, T., Ahmed, S., Goetschalckx, M., Shapiro, A., (2005), “A stochastic programming approach for supply chain network design under uncertainty”, European Journal of Operational Research, Vol. 167, pp. 96-115.
- Sha, D. Y., Che, Z. H., (2004), “Virtual integration with a multi-criteria partner selection model for the multi-echelon manufacturing system”, The International Journal of Advanced Manufacturing Technology, Vol. 25, pp. 793-802.
- Torabi, S. A., Hassini, E., (2009), “Multi-site production planning integrating procurement and distribution plans in multi-echelon supply chains: an interactive fuzzy goal programming approach”, International Journal of Production Research, Vol. 47, pp. 5475-5499.
- Tsiakis, P., Papageorgiou, L. G., (2008), “Optimal production allocation and distribution supply chain networks”, International Journal of Production Economics, Vol. 111, pp. 468-483.
Year 2020,
Volume: 2 Issue: 2, 44 - 49, 31.12.2020
Abstract
References
- Aktas, A., Temi̇z, İ. (2020). “Goal Programming Model for Production-Distribution Planning by Considering Carbon Emission”. Gazi University Journal of Science, Vol. 33, No. 1, pp. 135-150 .
- Aliev, R. A., Fazlollahi, B., Guirimov, B. G., Aliev, R. R., (2007), “Fuzzy-genetic approach to aggregate production–distribution planning in supply chain management”, Information Sciences, Vol. 177, pp. 4241-4255.
- Cóccola M. O., Méndez, C. A., Dondo, R. G., (2020), “A two-stage procedure for efficiently solving the integrated problem of production, inventory, and distribution of industrial products”, Computers and Chemical Engineering, 134, 106690
- Costantino, N., Dotoli, M., Falagario, M., Fanti, M. P., Mangini, A. M., (2012), “A model for supply management of agile manufacturing supply chains”. International Journal of Production Economics, Vol. 135, pp. 451-457.
- Ghadimi F., Aouam, T., (2021), “Planning capacity and safety stocks in a serial production–distribution system with multiple products, European Journal of Operational Research, 289, pp. 533–552.
- Graves, S. C., Willems, S. P., (2005), “Optimizing the Supply Chain Configuration for New Products”, Management Science, Vol. 51, pp. 1165-1180.
- Guarnaschelli, A., Salomone H. E., Méndez, C. A., (2020). “A stochastic approach for integrated production and distribution planning in dairy supply chains”, Computers & Chemical Engineering, 140, 106966.
- Khalifehzadeh, S., Seifbarghy, M., Naderi, B., (2017), “Solving a fuzzy multi objective model of a production–distribution system using meta-heuristic based approaches”. Journal of Intelligent Manufacturing, Vol. 28, pp. 95-109.
- Lakhal, S., Martel, A., Kettani, O., Oral, M., (2001), “On the optimization of supply chain networking decisions”, European Journal of Operational Research, Vol. 129, pp. 259-270.
- Liang, T.-F., (2008), “Fuzzy multi-objective production/distribution planning decisions with multi-product and multi-time period in a supply chain”, Computers & Industrial Engineering, Vol. 55, pp. 676-694.
- Miranda, P. L., Morabito, R., Ferreira, D., (2018). “Optimization model for a production, inventory, distribution and routing problem in small furniture companies”. TOP, Vol. 26, pp. 30-67.
- Paksoy, T., Özceylan, E., Weber, G.-W., (2012), “Profit oriented supply chain network optimization”, Central European Journal of Operations Research, Vol. 21, pp. 455-478.
- Rafiei, H., Safaei, F., Rabbani M., (2018)., “Integrated production-distribution planning problem in a competition-based four-echelon supply chain”. Computers & Industrial Engineering, Vol. 119, pp. 85–99.
- Romeijn, H. E., Shu, J., Teo, C.-P., (2007), “Designing two-echelon supply networks”, European Journal of Operational Research, Vol. 178, pp. 449-462.
- Santoso, T., Ahmed, S., Goetschalckx, M., Shapiro, A., (2005), “A stochastic programming approach for supply chain network design under uncertainty”, European Journal of Operational Research, Vol. 167, pp. 96-115.
- Sha, D. Y., Che, Z. H., (2004), “Virtual integration with a multi-criteria partner selection model for the multi-echelon manufacturing system”, The International Journal of Advanced Manufacturing Technology, Vol. 25, pp. 793-802.
- Torabi, S. A., Hassini, E., (2009), “Multi-site production planning integrating procurement and distribution plans in multi-echelon supply chains: an interactive fuzzy goal programming approach”, International Journal of Production Research, Vol. 47, pp. 5475-5499.
- Tsiakis, P., Papageorgiou, L. G., (2008), “Optimal production allocation and distribution supply chain networks”, International Journal of Production Economics, Vol. 111, pp. 468-483.
There are 18 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Operation |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | December 31, 2020 |
| Submission Date | October 26, 2020 |
| Published in Issue | Year 2020 Volume: 2 Issue: 2 |
Cite
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