References
- AABB. (2011). Nationwide blood collection and utilization survey report. USA: American Association of Blood Banks. accessed online 6 February 2014. www.aabb.org
- Acimovic, J., & Graves, S. (2014). Making better fulfillment decisions on the fly in an online retail environment. Manufacturing & Service Operations Management, 17(1), 34–51.
- Asllani, A., Culler, E., & Ettkin, L. (2014). A simulation‐based apheresis platelet inventory management model. Transfusion, 54(10), 2730–2735.
- Atkinson, M. P., Fontaine, M. J., Goodnough, L. T., & Wein, L. M. (2012). A novel allocation strategy for blood transfusions: Investigating the tradeoff between the age and availability of transfused blood. Transfusion, 52(1), 108–117.
- Baesler, F., Nemeth, M., Martínez, C., & Bastías, A. (2014). Analysis of inventory strategies for blood components in a regional blood center using process simulation. Transfusion, 54(2), 323–330.
- Balduini, C. L., & Patrizia, N. (2014). Platelet count and aging. Haematologica, 99(6), 953–955.
- Blake, J. T. (2017). Determining the inventory impact of extended‐shelf‐life platelets with a network simulation model. Transfusion, 57(12), 3001–3008.
- Carillo, M., Gennaro, C., Flavio, S., Vittorio, S., & Przemysław, S. (2018). Distributed simulation optimization and parameter exploration framework for the cloud. Simulation Modelling Practice and Theory, 83, 108–123.
- Chung, Y. T., & Erhun, F. (2013). Designing supply contracts for perishable goods with two periods of shelf life. IIE Transactions, 45(1), 53–67.
- Civelek, I., Karaesmen, I., & Alan, S. W. (2015). Blood platelet inventory management with protection levels. European Journal of Operations Research, 243, 826–838.
- D’Souza, C., Briggs, C., & Samue, 1. J. (2015). Platelets: The few, the young, and the active. Clinics in Laboratory Medicine, 35(1), 123–131.
- Dehghani, M., Thomas, K. K., & Hossein, C. (2017). A novel Iterative Optimization-based Simulation (IOS) framework: An effective tool to optimize system’s performance. Computers & Industrial Engineering, 111, 1–17.
- Deniz, B., Karaesmen, I., & Scheller-Wolf, A. (2010). Managing perishables with substitution: Issuance and replenishment heuristics. Manufacturing and Service Operations Management, 12(2), 319–329.
- Dillon, M., Fabricio, O., & Abbasi, B. (2017). A two-stage stochastic programming model for inventory management in the blood supply chain. International Journal of Production Economics, 187, 27–41.
- Duan, Q., & Liao, T. W. (2013). A new age-based replenishment policy for supply chain inventory optimization of highly perishable products. International Journal of Production Economics, 145, 658–671.
- Ferguson, M. E., & Koenigsberg, O. (2007). How should a firm manage deteriorating inventory? Production and Operations Management, 16(3), 306–321.
- Fontaine, M. J. F., Chung, Y. T., Rogers, W. M., Sussmann, H. D., Quach, P., Galel, S. A., … Erhun, F. (2009). Improving platelet supply chains through collaborations between blood centers and transfusion services. Transfusion, 49(10), 2040–2047.
- Gerber, M., & Luke, B. (2018). Convergence results for a class of time-varying simulated annealing algorithms. Stochastic Processes and Their Applications, 128(4), 1073–1094.
- Gintaras, P. (2017). A variable neighborhood search and simulated annealing hybrid for the profile minimization problem. Computers & Operations Research, 87, 83–97.
- Glynn, S. A. (2010). The red blood cell storage lesion: A method to the madness. Transfusion, 50(6), 1164–1169.
- Gomez, A. T., Quinn, J. G., Doiron, D. J., Watson, S., Crocker, B. D., & Cheng, C. K. (2015). Implementation of a novel real-time platelet inventory management system at a multi-site transfusion service. Transfusion, 55(9), 2070–2075.
- Goyal, S. K., & Giri, B. C. (2001). Recent trends in modeling of deteriorating inventory. European Journal of Operational Research, 134(1), 1–16.
- Haijema, R. (2011). Optimal issuing of perishables with a short fixed shelf life. International Conference on Computational Logistics: ICCL 2011: Computational Logistics (pp. 160–169). University Hamburg, Hamburg, Germany.
- Haijema, R., Van Der Wal, J., & Van Dijk, N. (2007). Blood platelet production: Optimization by dynamic programming and simulation. Computers and Operations Research, 34(3), 760–779.
- Haijema, R., Van Der Wal, J., & Van Dijk, N. (2009). Blood platelet production: A novel approach for practical optimization. Transfusion, 49(3), 411–419.
- Helmut, N., Marion, S. R., & Walter, J. G. (2018). A dynamic simulation–Optimization approach for managing mass casualty incidents. Operations Research for Health Care, 17, 82–100.
- Hernan, C. G., & Krystel, K. C. (2018). Simulation-based model for the optimization of machining parameters in a metal-cutting operation. Simulation Modelling Practice and Theory, 84, 204–221.
- Hersh, E. M., Bodey, G. P., Nies, B. A., & Freireich, E. J. (1965). Causes of death in acute leukemia: Aten-year study of 414 patients from 1954–1963. Journal of the American Medical Association, 193(2), 105–109.
- Ishii, H., & Nose, T. (1996). Perishable inventory control with two types of customers and different selling prices under the warehouse capacity constraint. International Journal of Production Economics, 44, 167–176.
- Izak, M., & James, B. B. (2014). Management of thrombocytopenia. F1000prime Reports, 6(45).
- Karaesmen, I. Z., Scheller-Wolf, A., & Deniz, B. (2011). Managing perishable and aging inventories: Review and future research directions. Kluwer International Series in Operations Research and Management Science, 151, 393–436.
- Kök, A. G., & Fisher, M. (2007). Demand estimation and assortment optimization under substitution: Methodology and application. Operations Research, 55(6), 1001–1021.
- Leonora, B., Marco, D., Luca, M. G., & Walter, J. G. (2009). A survey on metaheuristics for stochastic combinatorial optimization. Natural Computing, 8(2), 239–287.
- Li, Y., Lim, A., & Rodrigues, B. (2009). Pricing and inventory control for a perishable product. Manufacturing and Service Operations Management, 11(3), 538–542.
- Marzieh, E. K., Reza, T. M., Ata Allah, T., & Saman, H. A. (2018). Designing and optimizing a sustainable supply chain network for a blood platelet bank under uncertainty. Engineering Applications of Artificial Intelligence, 71, 236–250.
- Nahmias, S. (2011). Perishable Inventory Systems. New York, NY: Springer.
- Nahmias, S., & Pierskalla, W. (1976). A two product perishable/non-perishable inventory problem. S.I.A.M Journal of Applied Mathematics, 30(3), 483–500.
- Najafi, M., Ahmadi, A., & Zolfagharinia, H. (2017). Blood inventory management in hospitals: Considering supply and demand uncertainty and blood transshipment possibility. Operations Research for Health Care, 15, 43–56.
- Netessine, S., & Rudi, N. (2003). Centralized and competitive inventory models with demand substitution. Operations Research, 51(2), 329–335.
- Osorio, A. F., Brailsford, S. C., Smith, H. K., Forero-Matiz, S. P., & Camacho-Rodríguez, B. A. (2017). Simulation-optimization model for production planning in the blood supply chain. Health Care Management Science, 20(4), 548–564.
- Parlar, M. (1985). Optimal ordering policies for a perishable and substitutable product – A Markov decision model. Information Systems and Operational Research, 23(2), 182–195.
- Pérez, V. M. A., Gorria, C., Lezaun, M., López, F. J., Monge, J., Eguizabal, C., & Vesga, M. A. (2016). Optimization of the management of platelet concentrate stocks in the Basque Country using mathematical simulation. Vox Sanguinis, 110(4), 369–375.
- Pierskella, W. P., & Roach, C. D. (1972). Optimal issuing policies for perishable inventory. Management Science, 18(11), 603–614.
- Qinglin, D., & Warren, T. L. (2014). Optimization of blood supply chain with shortened shelf lives and ABO compatibility. International Journal of Production Economics, 153, 113–129.
- Satyajith, A., Nikolaos, V., Sahinidis, B., & Scott, J. B. (2014). Simulation optimization: A review of algorithms and applications. 4OR, 12(4), 301–333.
- Stroncek, D. F., & Rebulla, P. (2007). Transfusion medicine 2: Platelet transfusions. The Lancet, 370(9585), 427–438.
- Tekin, E., Gürler, U., & Berk, E. (2001). Age-based vs. stock level control policies for a perishable inventory system. European Journal of Operational Research, 134(2), 309–329.
- Xavier, R. R., Lídia, M., & Jaume, B. (2017). Notes on using simulation-optimization techniques in traffic simulation. Transportation Research Procedia, 27, 881–888.
- Zhou, D., Leung, L. C., & Pierskalla, W. P. (2011). Inventory management of platelets in hospitals: Optimal inventory policy for perishable products with regular and optional expedited replenishments. Manufacturing and Service Operations Management, 13(4), 420–438.