Help
Cart
Skip main navigation

Available Issues

April 10, 2013 - May 13, 2026

Available Issues

April 10, 2013 - May 13, 2026

Integrated Planning of Supply and Inventory Under Seasonal Demand Uncertainty

Published Online:27 Apr 2026https://doi.org/10.1287/trsc.2025.0026

References

  • Aflaki A, Swinney R (2021) Inventory integration with rational consumers. Oper. Res. 69(4):1025–1043.LinkGoogle Scholar
  • Atamtürk A, Berenguer G, Shen ZJ (2012) A conic integer programming approach to stochastic joint location-inventory problems. Oper. Res. 60(2):366–381.LinkGoogle Scholar
  • Benjaafar S, Cooper WL, Kim JS (2005) On the benefits of pooling in production-inventory systems. Management Sci. 51(4):548–565.LinkGoogle Scholar
  • Berman O, Krass D, Tajbakhsh MM (2011) On the benefits of risk pooling in inventory management. Production Oper. Management 20(1):57–71.CrossrefGoogle Scholar
  • Bimpikis K, Markakis MG (2016) Inventory pooling under heavy-tailed demand. Management Sci. 62(6):1800–1813.LinkGoogle Scholar
  • Camerini PM, Fratta L, Maffioli F (1975) On improving relaxation methods by modified gradient techniques. Balinski ML, Wolfe P, eds. Nondifferentiable Optimization, Mathematical Programming Studies, vol. 3 (Springer, Berlin, Heidelberg), 26–34.CrossrefGoogle Scholar
  • Caro F, Gallien J (2012) Clearance pricing optimization for a fast-fashion retailer. Oper. Res. 60(6):1404–1422.LinkGoogle Scholar
  • Choi TM (2014) Fashion Retail Supply Chain Management: A Systems Optimization Approach (CRC Press, Boca Raton, FL).CrossrefGoogle Scholar
  • Contreras I, Cordeau JF, Laporte G (2011) The dynamic uncapacitated hub location problem. Transportation Sci. 45(1):18–32.LinkGoogle Scholar
  • Corbett CJ, Rajaram K (2006) A generalization of the inventory pooling effect to nonnormal dependent demand. Manufacturing Service Oper. Management 8(4):351–358.LinkGoogle Scholar
  • Cornuéjols G, Sridharan R, Thizy JM (1991) A comparison of heuristics and relaxations for the capacitated plant location problem. Eur. J. Oper. Res. 50(3):280–297.CrossrefGoogle Scholar
  • Daskin MS, Coullard CR, Shen ZJM (2002) An inventory-location model: Formulation, solution algorithm and computational results. Ann. Oper. Res. 110(1–4):83–106.CrossrefGoogle Scholar
  • Diabat A, Battaïa O, Nazzal D (2015) An improved Lagrangian relaxation-based heuristic for a joint location-inventory problem. Comput. Oper. Res. 61:170–178.CrossrefGoogle Scholar
  • Eppen GD (1979) Note-effects of centralization on expected costs in a multi-location newsboy problem. Management Sci. 25(5):498–501.LinkGoogle Scholar
  • Erlebacher SJ, Meller RD (2000) The interaction of location and inventory in designing distribution systems. IIE Trans. 32(2):155–166.CrossrefGoogle Scholar
  • Farahani RZ, Bajgan HR, Fahimnia B, Kaviani M (2015) Location-inventory problem in supply chains: A modelling review. Internat. J. Production Res. 53(12):3769–3788.CrossrefGoogle Scholar
  • Gerchak Y, He QM (2003) On the relation between the benefits of risk pooling and the variability of demand. IIE Trans. 35(11):1027–1031.CrossrefGoogle Scholar
  • Ghosh DD, Bhattacharya P, Mitra S (2023) Inventory optimization through an integrated model: A case study. J. Supply Chain Management Systems 12(1):28–37.Google Scholar
  • Goldberg DA, Reiman MI, Wang Q (2021) A survey of recent progress in the asymptotic analysis of inventory systems. Production Oper. Management 30(6):1718–1750.CrossrefGoogle Scholar
  • Govindarajan A, Sinha A, Uichanco J (2021) Distribution-free inventory risk pooling in a multilocation newsvendor. Management Sci. 67(4):2272–2291.LinkGoogle Scholar
  • Klincewicz JG, Hanan L, Rosenberg E (1986) Optimal and heuristic algorithms for multiproduct uncapacitated facility location. Eur. J. Oper. Res. 26(2):251–258.CrossrefGoogle Scholar
  • Kumar SK, Tiwari MK (2013) Supply chain system design integrated with risk pooling. Comput. Indust. Engrg. 64(2):580–588.CrossrefGoogle Scholar
  • Mak HY, Shen ZJM (2014) Pooling and dependence of demand and yield in multiple-location inventory systems. Manufacturing Service Oper. Management 16(2):263–269.LinkGoogle Scholar
  • Nozick LK, Turnquist MA (1998) Integrating inventory impacts into a fixed-charge model for locating distribution centers. Transportation Res. Part E: Logist. Transportation Rev. 34(3):173–186.CrossrefGoogle Scholar
  • Ozsen L, Coullard CR, Daskin MS (2008) Capacitated warehouse location model with risk pooling. Nav. Res. Logist. 55(4):295–312.CrossrefGoogle Scholar
  • Ozsen L, Daskin MS, Coullard CR (2009) Facility location modeling and inventory management with multisourcing. Transportation Sci. 43(4):455–472.LinkGoogle Scholar
  • Pan Y, Wang X, Ye Q (2024) Enhancing supply chain management through artificial intelligence: A case study of JD logistics. Adv. Econom. Management Political Sci. 109:116–121.Google Scholar
  • Polino S, Camacho‐Vallejo JF, Villegas JG (2024) A facility location problem for extracurricular workshop planning: Bi‐level model and metaheuristics. Internat. Trans. Oper. Res. 31(6):4025–4067.CrossrefGoogle Scholar
  • Puga MS, Tancrez JS (2017) A heuristic algorithm for solving large location-inventory problems with demand uncertainty. Eur. J. Oper. Res. 259(2):413–423.CrossrefGoogle Scholar
  • Puttemans I, Caris A, Braekers K (2025) The integration of location and inventory decisions in supply chain networks: A literature review and future prospects. Transportation Res. Part E: Logist. Transportation Rev. 195:103970.CrossrefGoogle Scholar
  • Ramsay CM (2006) The distribution of sums of certain IID Pareto variates. Comm. Statist. Theory Methods 35(3):395–405.CrossrefGoogle Scholar
  • Şen A (2008) The US fashion industry: A supply chain review. Internat. J. Production. Econom. 114(2):571–593.CrossrefGoogle Scholar
  • Shahabi M, Tafreshian A, Unnikrishnan A, Boyles SD (2018) Joint production–inventory–location problem with multi-variate normal demand. Transportation Res. Part B: Methodological 110:60–78.CrossrefGoogle Scholar
  • Shen ZJM, Coullard C, Daskin MS (2003) A joint location-inventory model. Transportation Sci. 37(1):40–55.LinkGoogle Scholar
  • Shulman A (1991) An algorithm for solving dynamic capacitated plant location problems with discrete expansion sizes. Oper. Res. 39(3):423–436.LinkGoogle Scholar
  • Sourirajan K, Ozsen L, Uzsoy R (2009) A genetic algorithm for a single product network design model with lead time and safety stock considerations. Eur. J. Oper. Res. 197(2):599–608.CrossrefGoogle Scholar
  • Verter V, Dincer MC (1995) Facility location and capacity acquisition: An integrated approach. Nav. Res. Logist. 42(8):1141–1160.CrossrefGoogle Scholar
  • Vidyarthi N, Çelebi E, Elhedhli S, Jewkes E (2007) Integrated production-inventory-distribution system design with risk pooling: Model formulation and heuristic solution. Transportation Sci. 41(3):392–408.LinkGoogle Scholar
  • Wang L, Wang S, Gong Y, Peng L (2023) Optimizing a multi-echelon location-inventory problem with joint replenishment: A Lipschitz ϵ-optimal approach using Lagrangian relaxation. Comput. Oper. Res. 151:106128.CrossrefGoogle Scholar
  • Yang C, Hu Z, Zhou SX (2021) Multilocation newsvendor problem: Centralization and inventory pooling. Management Sci. 67(1):185–200.LinkGoogle Scholar
Previous
Back to Top
Next
INFORMS site uses cookies to store information on your computer. Some are essential to make our site work; Others help us improve the user experience. By using this site, you consent to the placement of these cookies. Please read our Privacy Statement to learn more.
Agree