How to cite this paper
Fereiduni, M & Shahanaghi, K. (2016). A robust optimization model for blood supply chain in emergency situations.International Journal of Industrial Engineering Computations , 7(4), 535-554.
Refrences
Abolghasemi, H., Radfar, M. H., Tabatabaee, M., Hosseini-Divkolayee, N. S., & Burkle, F. M. (2008). Revisiting blood transfusion preparedness: experience from the Bam earthquake response. Prehospital and disaster medicine,23(05), 391-394.
Arvan, M., Tavakkoli-Moghaddam, R., & Abdollahi, M. (2015). Designing a bi-objective and multi-product supply chain network for the supply of blood. Uncertain Supply Chain Management, 3(1), 57-68.
Beamon, B. M., & Kotleba, S. A. (2006). Inventory modelling for complex emergencies in humanitarian relief operations. International Journal of Logistics: Research and Applications, 9(1), 1-18.
Beliën, J., & Forcé, H. (2012). Supply chain management of blood products: A literature review. European Journal of Operational Research, 217(1), 1-16.
Blake, J. T. (2009). On the use of Operational Research for managing platelet inventory and ordering. Transfusion, 49(3), 396-401.
Brodheim, E., Derman, C., & Prastacos, G. (1975). On the evaluation of a class of inventory policies for perishable products such as blood. Management Science, 21(11), 1320-1325.
Brodheim, E., Hirsch, R., & Prastacos, G. (1976). Setting inventory levels for hospital blood banks. Transfusion, 16(1), 63-70.
Carden, R., & DelliFraine, J. L. (2006). An examination of blood center structure and hospital customer satisfaction: what can centralized and decentralized blood centers learn from each other?. Health marketing quarterly, 22(3), 21-42.
Cetin, E., & Sarul, L. S. (2009). A blood bank location model: A multi objective approach. European Journal of Pure and Applied Mathematics, 2(1), 112-124.
Chapman, J. F., & Cook, R. (2002). The Blood Stocks Management Scheme, a partnership venture between the National Blood Service of England and North Wales and participating hospitals for maximizing blood supply chain management. Vox Sanguinis, 83(3), 239-246.
Cohen, M. A., Pierskalla, W. P., Sassetti, R. J., & Consolo, J. (1979). An overview of a hierarchy of planning models for regional blood bank management. Transfusion, 19(5), 526-534.
Cumming, P. D., Kendall, K. E., Pegels, C. C., Seagle, J. P., & Shubsda, J. F. (1976). A collections planning model for regional blood suppliers: description and validation. Management Science, 22(9), 962-971.
Custer, B., Johnson, E. S., Sullivan, S. D., Hazlet, T. K., Ramsey, S. D., Hirschler, N. V., ... & Busch, M. P. (2004). Quantifying losses to the donated blood supply due to donor deferral and miscollection. Transfusion, 44(10), 1417-1426.
Daskin, M. S., Coullard, C. R., & Shen, Z. J. M. (2002). An inventory-location model: Formulation, solution algorithm and computational results. Annals of operations research, 110(1-4), 83-106.
Davis, R., Geiger, B., Gutierrez, A., Heaser, J., & Veeramani, D. (2009). Tracking blood products in blood centers using radio frequency identification: a comprehensive assessment. Vox sanguinis, 97(1), 50-60.
Delen, D., Erraguntla, M., Mayer, R. J., & Wu, C. N. (2011). Better management of blood supply-chain with GIS-based analytics. Annals of Operations Research, 185(1), 181-193.
Dumas, M. B., & Rabinowitz, M. (1977). Policies for reducing blood wastage in hospital blood banks. Management Science, 23(10), 1124-1132.
Erickson, M. L., Champion, M. H., Klein, R., Ross, R. L., Neal, Z. M., & Snyder, E. L. (2008). Management of blood shortages in a tertiary care academic medical center: the Yale‐New Haven Hospital frozen blood reserve. Transfusion, 48(10), 2252-2263.
Federgruen, A., Prastacos, G., & Zipkin, P. H. (1986). An allocation and distribution model for perishable products. Operations Research, 34(1), 75-82.
Frankfurter, G. M., Kendall, K. E., & Pegels, C. C. (1974). Management control of blood through a short-term supply-demand forecast system. Management Science, 21(4), 444-452.
Friedman, B. A., Abbott, R. D., & Williams, G. W. (1982). A blood ordering strategy for hospital blood banks derived from a computer simulation. American Journal of clinical pathology, 78(2), 154-160.
Galloway, M. J., Jane, G., Sudlow, L., Trattles, J., & Watson, J. (2008). A tabletop exercise to assess a hospital emergency blood management contingency plan in a simulated acute blood shortage. Transfusion Medicine,18(5), 302-307.
Ghandforoush, P., & Sen, T. K. (2010). A DSS to manage platelet production supply chain for regional blood centers. Decision Support Systems, 50(1), 32-42.
Gutierrez, G. J., & Kouvelis, P. (1995). A robustness approach to international sourcing. Annals of Operations Research, 59(1), 165-193.
Gutiérrez, G. J., Kouvelis, P., & Kurawarwala, A. A. (1996). A robustness approach to incapacitated network design problems. European Journal of Operational Research, 94(2), 362-376.
Heddle, N. M., Liu, Y., Barty, R., Webert, K. E., Whittaker, S., Gagliardi, K. & Owens, W. (2009). Factors affecting the frequency of red blood cell outdates: an approach to establish benchmarking targets. Transfusion, 49(2), 219-226.
Hemmelmayr, V., Doerner, K. F., Hartl, R. F., & Savelsbergh, M. W. (2010). Vendor managed inventory for environments with stochastic product usage. European Journal of Operational Research, 202(3), 686-695.
Hess, J. R. (2004). Red cell freezing and its impact on the supply chain. Transfusion Medicine, 14(1), 1-8.
Jabbarzadeh, A., Fahimnia, B., & Seuring, S. (2014). Dynamic supply chain network design for the supply of blood in disasters: A robust model with real world application. Transportation Research Part E: Logistics and Transportation Review, 70, 225-244.
Kahn, R. A., McDonough, B., Rowe, A., Ellis, F. R., & Pino, B. (1978). The impact of converting to an all frozen blood system in a large regional blood center. Transfusion, 18(3), 304-311.
Kaspi, H., & Perry, D. (1983). Inventory systems of perishable commodities. Advances in Applied Probability, 674-685.
Katsaliaki, K. (2008). Cost-effective practices in the blood service sector. Health policy, 86(2), 276-287.
Kopach, R., Balcıoğlu, B., & Carter, M. (2008). Tutorial on constructing a red blood cell inventory management system with two demand rates. European Journal of Operational Research, 185(3), 1051-1059.
Kouvelis, P., Kurawarwala, A. A., & Gutierrez, G. J. (1992). Algorithms for robust single and multiple period layout planning for manufacturing systems. European journal of operational research, 63(2), 287-303.
Mulvey, J. M., Vanderbei, R. J., & Zenios, S. A. (1995). Robust optimization of large-scale systems. Operations research, 43(2), 264-281.
Nagurney, A., Masoumi, A. H., & Yu, M. (2012). Supply chain network operations management of a blood banking system with cost and risk minimization. Computational Management Science, 9(2), 205-231.
Nollet, K. E., Ohto, H., Yasuda, H., & Hasegawa, A. (2013). The great East Japan earthquake of March 11, 2011, from the vantage point of blood banking and transfusion medicine. Transfusion medicine reviews, 27(1), 29-35.
Or, I., & Pierskalla, W. P. (1979). A transportation location-allocation model for regional blood banking. AIIE transactions, 11(2), 86-95.
Pierskalla, W. (2005). Supply chain management of blood banks. Operations research and health care, 103-145.
Pierskalla, W. P., & Roach, C. D. (1972). Optimal issuing policies for perishable inventory. Management Science, 18(11), 603-614.
Prastacos, G. P., & Brodheim, E. (1980). PBDS: a decision support system for regional blood management. Management Science, 26(5), 451-463.
Sabzehchian, M., Abolghasemi, H., Radfar, M. H., Jonaidi-Jafari, N., Ghasemzadeh, H., & Burkle, F. M. (2006). Pediatric trauma at tertiary-level hospitals in the aftermath of the Bam, Iran Earthquake. Prehospital and disaster medicine, 21(05), 336-339.
Şahin, G., Süral, H., & Meral, S. (2007). Locational analysis for regionalization of Turkish Red Crescent blood services. Computers & Operations Research, 34(3), 692-704.
Sha, Y., & Huang, J. (2012). The multi-period location-allocation problem of engineering emergency blood supply systems. Systems Engineering Procedia, 5, 21-28.
Shen, Z. J. M., Coullard, C., & Daskin, M. S. (2003). A joint location-inventory model. Transportation science, 37(1), 40-55.
Sheu, J. B. (2007). An emergency logistics distribution approach for quick response to urgent relief demand in disasters. Transportation Research Part E: Logistics and Transportation Review, 43(6), 687-709.
Snyder, L. V., & Daskin, M. S. (2006). Stochastic p-robust location problems. IIE Transactions, 38(11), 971-985.
Tabatabaie, M., Ardalan, A., Abolghasemi, H., Holakouie Naieni, K., Pourmalek, F., Ahmadi, B., & Shokouhi, M. (2010). Estimating blood transfusion requirements in preparation for a major earthquake: the Tehran, Iran study. Prehosp Disaster Med, 25(3), 246-252.
Torghabeh, H. M., Pourfathollah, A., Shooshtari, M. M., & Yazdi, Z. R. (2006). Relation of Factor VIII and IX Inhibitors with ABO Blood Groups in 150 Patients with Hemophilia A and B. Iranian Journal of Allergy, Asthma and Immunology, 5(1), 33-34.
Arvan, M., Tavakkoli-Moghaddam, R., & Abdollahi, M. (2015). Designing a bi-objective and multi-product supply chain network for the supply of blood. Uncertain Supply Chain Management, 3(1), 57-68.
Beamon, B. M., & Kotleba, S. A. (2006). Inventory modelling for complex emergencies in humanitarian relief operations. International Journal of Logistics: Research and Applications, 9(1), 1-18.
Beliën, J., & Forcé, H. (2012). Supply chain management of blood products: A literature review. European Journal of Operational Research, 217(1), 1-16.
Blake, J. T. (2009). On the use of Operational Research for managing platelet inventory and ordering. Transfusion, 49(3), 396-401.
Brodheim, E., Derman, C., & Prastacos, G. (1975). On the evaluation of a class of inventory policies for perishable products such as blood. Management Science, 21(11), 1320-1325.
Brodheim, E., Hirsch, R., & Prastacos, G. (1976). Setting inventory levels for hospital blood banks. Transfusion, 16(1), 63-70.
Carden, R., & DelliFraine, J. L. (2006). An examination of blood center structure and hospital customer satisfaction: what can centralized and decentralized blood centers learn from each other?. Health marketing quarterly, 22(3), 21-42.
Cetin, E., & Sarul, L. S. (2009). A blood bank location model: A multi objective approach. European Journal of Pure and Applied Mathematics, 2(1), 112-124.
Chapman, J. F., & Cook, R. (2002). The Blood Stocks Management Scheme, a partnership venture between the National Blood Service of England and North Wales and participating hospitals for maximizing blood supply chain management. Vox Sanguinis, 83(3), 239-246.
Cohen, M. A., Pierskalla, W. P., Sassetti, R. J., & Consolo, J. (1979). An overview of a hierarchy of planning models for regional blood bank management. Transfusion, 19(5), 526-534.
Cumming, P. D., Kendall, K. E., Pegels, C. C., Seagle, J. P., & Shubsda, J. F. (1976). A collections planning model for regional blood suppliers: description and validation. Management Science, 22(9), 962-971.
Custer, B., Johnson, E. S., Sullivan, S. D., Hazlet, T. K., Ramsey, S. D., Hirschler, N. V., ... & Busch, M. P. (2004). Quantifying losses to the donated blood supply due to donor deferral and miscollection. Transfusion, 44(10), 1417-1426.
Daskin, M. S., Coullard, C. R., & Shen, Z. J. M. (2002). An inventory-location model: Formulation, solution algorithm and computational results. Annals of operations research, 110(1-4), 83-106.
Davis, R., Geiger, B., Gutierrez, A., Heaser, J., & Veeramani, D. (2009). Tracking blood products in blood centers using radio frequency identification: a comprehensive assessment. Vox sanguinis, 97(1), 50-60.
Delen, D., Erraguntla, M., Mayer, R. J., & Wu, C. N. (2011). Better management of blood supply-chain with GIS-based analytics. Annals of Operations Research, 185(1), 181-193.
Dumas, M. B., & Rabinowitz, M. (1977). Policies for reducing blood wastage in hospital blood banks. Management Science, 23(10), 1124-1132.
Erickson, M. L., Champion, M. H., Klein, R., Ross, R. L., Neal, Z. M., & Snyder, E. L. (2008). Management of blood shortages in a tertiary care academic medical center: the Yale‐New Haven Hospital frozen blood reserve. Transfusion, 48(10), 2252-2263.
Federgruen, A., Prastacos, G., & Zipkin, P. H. (1986). An allocation and distribution model for perishable products. Operations Research, 34(1), 75-82.
Frankfurter, G. M., Kendall, K. E., & Pegels, C. C. (1974). Management control of blood through a short-term supply-demand forecast system. Management Science, 21(4), 444-452.
Friedman, B. A., Abbott, R. D., & Williams, G. W. (1982). A blood ordering strategy for hospital blood banks derived from a computer simulation. American Journal of clinical pathology, 78(2), 154-160.
Galloway, M. J., Jane, G., Sudlow, L., Trattles, J., & Watson, J. (2008). A tabletop exercise to assess a hospital emergency blood management contingency plan in a simulated acute blood shortage. Transfusion Medicine,18(5), 302-307.
Ghandforoush, P., & Sen, T. K. (2010). A DSS to manage platelet production supply chain for regional blood centers. Decision Support Systems, 50(1), 32-42.
Gutierrez, G. J., & Kouvelis, P. (1995). A robustness approach to international sourcing. Annals of Operations Research, 59(1), 165-193.
Gutiérrez, G. J., Kouvelis, P., & Kurawarwala, A. A. (1996). A robustness approach to incapacitated network design problems. European Journal of Operational Research, 94(2), 362-376.
Heddle, N. M., Liu, Y., Barty, R., Webert, K. E., Whittaker, S., Gagliardi, K. & Owens, W. (2009). Factors affecting the frequency of red blood cell outdates: an approach to establish benchmarking targets. Transfusion, 49(2), 219-226.
Hemmelmayr, V., Doerner, K. F., Hartl, R. F., & Savelsbergh, M. W. (2010). Vendor managed inventory for environments with stochastic product usage. European Journal of Operational Research, 202(3), 686-695.
Hess, J. R. (2004). Red cell freezing and its impact on the supply chain. Transfusion Medicine, 14(1), 1-8.
Jabbarzadeh, A., Fahimnia, B., & Seuring, S. (2014). Dynamic supply chain network design for the supply of blood in disasters: A robust model with real world application. Transportation Research Part E: Logistics and Transportation Review, 70, 225-244.
Kahn, R. A., McDonough, B., Rowe, A., Ellis, F. R., & Pino, B. (1978). The impact of converting to an all frozen blood system in a large regional blood center. Transfusion, 18(3), 304-311.
Kaspi, H., & Perry, D. (1983). Inventory systems of perishable commodities. Advances in Applied Probability, 674-685.
Katsaliaki, K. (2008). Cost-effective practices in the blood service sector. Health policy, 86(2), 276-287.
Kopach, R., Balcıoğlu, B., & Carter, M. (2008). Tutorial on constructing a red blood cell inventory management system with two demand rates. European Journal of Operational Research, 185(3), 1051-1059.
Kouvelis, P., Kurawarwala, A. A., & Gutierrez, G. J. (1992). Algorithms for robust single and multiple period layout planning for manufacturing systems. European journal of operational research, 63(2), 287-303.
Mulvey, J. M., Vanderbei, R. J., & Zenios, S. A. (1995). Robust optimization of large-scale systems. Operations research, 43(2), 264-281.
Nagurney, A., Masoumi, A. H., & Yu, M. (2012). Supply chain network operations management of a blood banking system with cost and risk minimization. Computational Management Science, 9(2), 205-231.
Nollet, K. E., Ohto, H., Yasuda, H., & Hasegawa, A. (2013). The great East Japan earthquake of March 11, 2011, from the vantage point of blood banking and transfusion medicine. Transfusion medicine reviews, 27(1), 29-35.
Or, I., & Pierskalla, W. P. (1979). A transportation location-allocation model for regional blood banking. AIIE transactions, 11(2), 86-95.
Pierskalla, W. (2005). Supply chain management of blood banks. Operations research and health care, 103-145.
Pierskalla, W. P., & Roach, C. D. (1972). Optimal issuing policies for perishable inventory. Management Science, 18(11), 603-614.
Prastacos, G. P., & Brodheim, E. (1980). PBDS: a decision support system for regional blood management. Management Science, 26(5), 451-463.
Sabzehchian, M., Abolghasemi, H., Radfar, M. H., Jonaidi-Jafari, N., Ghasemzadeh, H., & Burkle, F. M. (2006). Pediatric trauma at tertiary-level hospitals in the aftermath of the Bam, Iran Earthquake. Prehospital and disaster medicine, 21(05), 336-339.
Şahin, G., Süral, H., & Meral, S. (2007). Locational analysis for regionalization of Turkish Red Crescent blood services. Computers & Operations Research, 34(3), 692-704.
Sha, Y., & Huang, J. (2012). The multi-period location-allocation problem of engineering emergency blood supply systems. Systems Engineering Procedia, 5, 21-28.
Shen, Z. J. M., Coullard, C., & Daskin, M. S. (2003). A joint location-inventory model. Transportation science, 37(1), 40-55.
Sheu, J. B. (2007). An emergency logistics distribution approach for quick response to urgent relief demand in disasters. Transportation Research Part E: Logistics and Transportation Review, 43(6), 687-709.
Snyder, L. V., & Daskin, M. S. (2006). Stochastic p-robust location problems. IIE Transactions, 38(11), 971-985.
Tabatabaie, M., Ardalan, A., Abolghasemi, H., Holakouie Naieni, K., Pourmalek, F., Ahmadi, B., & Shokouhi, M. (2010). Estimating blood transfusion requirements in preparation for a major earthquake: the Tehran, Iran study. Prehosp Disaster Med, 25(3), 246-252.
Torghabeh, H. M., Pourfathollah, A., Shooshtari, M. M., & Yazdi, Z. R. (2006). Relation of Factor VIII and IX Inhibitors with ABO Blood Groups in 150 Patients with Hemophilia A and B. Iranian Journal of Allergy, Asthma and Immunology, 5(1), 33-34.