TY - GEN
T1 - An Exact Method for Optimal Inventory Management of Perishable Multi-item Systems with Backorders
AU - García-Duque, María Paula
AU - Morillo-Torres, Daniel
AU - Gatica, Gustavo
AU - Coronado-Hernandez, Jairo R.
N1 - Publisher Copyright:
© The Author(s), under exclusive license to Springer Nature Switzerland AG 2026.
PY - 2026
Y1 - 2026
N2 - Efficient inventory management is especially challenging in systems dealing with multiple perishable items and variable supplier conditions. This study developed a Mixed-Integer Linear Programming model to address the inventory management of perishable and multi-item systems with the possibility of backorders. The model incorporates deterministic demand, supplier-specific lead times, fixed shelf life, and cost components related to ordering, holding, safety stock, and delayed fulfillment. The main contribution lies in integrating perishability and backordering into a unified framework that supports strategic decisions on order timing, quantities, and joint replenishment, while ensuring service level compliance and minimizing total costs. Additionally, by integrating perishability constraints, this model contributes to reducing waste and minimizing the environmental impact associated with product expiration. The model’s applicability was demonstrated through a real case study in the raw materials supply sector to validate its practical relevance and performance, achieving a 0.09% optimality gap within 15 minutes, highlighting its effectiveness for cost-efficient and sustainable decision-making in complex inventory environments.
AB - Efficient inventory management is especially challenging in systems dealing with multiple perishable items and variable supplier conditions. This study developed a Mixed-Integer Linear Programming model to address the inventory management of perishable and multi-item systems with the possibility of backorders. The model incorporates deterministic demand, supplier-specific lead times, fixed shelf life, and cost components related to ordering, holding, safety stock, and delayed fulfillment. The main contribution lies in integrating perishability and backordering into a unified framework that supports strategic decisions on order timing, quantities, and joint replenishment, while ensuring service level compliance and minimizing total costs. Additionally, by integrating perishability constraints, this model contributes to reducing waste and minimizing the environmental impact associated with product expiration. The model’s applicability was demonstrated through a real case study in the raw materials supply sector to validate its practical relevance and performance, achieving a 0.09% optimality gap within 15 minutes, highlighting its effectiveness for cost-efficient and sustainable decision-making in complex inventory environments.
KW - Backorders
KW - Inventory management
KW - Lead Time
KW - MILP
KW - Multi-Item
KW - Multi-Supplier
KW - Perishable
UR - https://www.scopus.com/pages/publications/105031509267
U2 - 10.1007/978-3-032-16761-3_23
DO - 10.1007/978-3-032-16761-3_23
M3 - Conference contribution
AN - SCOPUS:105031509267
SN - 9783032167606
T3 - Communications in Computer and Information Science
SP - 326
EP - 340
BT - Advanced Research in Technologies, Information, Innovation and Sustainability
A2 - Guarda, Teresa
A2 - Portela, Filipe
A2 - Augusto, Maria Fernanda
A2 - Coronado-Hernández, Jairo R.
PB - Springer Cham
T2 - 5th International Conference on Advanced Research in Technologies, Information, Innovation and Sustainability 2025, ARTIIS 2025
Y2 - 21 October 2025 through 23 October 2025
ER -