Free Access
RAIRO-Oper. Res.
Volume 55, 2021
Regular articles published in advance of the transition of the journal to Subscribe to Open (S2O). Free supplement sponsored by the Fonds National pour la Science Ouverte
Page(s) S51 - S77
Published online 02 March 2021
  • S.P. Aggarwal and C.K. Jaggi, Ordering policies of deteriorating items under permissible delay in payments. J. Oper. Res. Soc. 46 (1995) 658–662. [Google Scholar]
  • R. Begum, R.R. Sahoo and S.K. Sahu, A replenishment policy for items with price-dependent demand, time-proportional deterioration and no shortages. Int. J. Syst. Sci. 43 (2012) 903–910. [Google Scholar]
  • S.C. Chen and J.T. Teng, Inventory and credit decisions for time-varying deteriorating items with up-stream and down-stream trade credit financing by discounted cash flow analysis. Eur. J. Oper. Res. 243 (2015) 566–575. [Google Scholar]
  • A. Cambini and L. Martein, Generalized convexity and optimization: Theory and application. Springer-Verlag Berlin Heidelberg, USA (2009). [Google Scholar]
  • B.K. Dey, B. Sarkar, M. Sarkar and S. Pareek, An integrated inventory model involving discrete Setup cost reduction, variable safety factor, selling price dependent demand, and investment. RAIRO: OR 53 (2019) 39–57. [Google Scholar]
  • C.Y. Dye, The effect of preservation technology investment on a non-instantaneous deteriorating inventory model. Omega 41 (2013) 872–880. [Google Scholar]
  • C.Y. Dye and T.P. Hsieh, An optimal replenishment policy for deteriorating items with effective investment in preservation technology. Eur. J. Oper. Res. 218 (2012) 106–112. [Google Scholar]
  • S.K. Goyal, Economic order quantity under conditions of permissible delay in payments. J. Oper. Res. Soc. 36 (1985) 335–338. [Google Scholar]
  • Y. He and H. Huang, Optimizing inventory and pricing policy for seasonal deteriorating products with preservation technology investment J. Ind. Eng. 2013 (2013) 793568. [Google Scholar]
  • T.P. Hsieh and C.Y. Dye, A production–inventory model incorporating the effect of preservation technology investment when demand is fluctuating with time. J. Comput. Appl. Math. 239 (2013) 25–36. [Google Scholar]
  • C.K. Jaggi, S. Tiwari and S.K. Goel, Credit financing in economic ordering policies for non-instantaneous deteriorating items with price dependent demand and two storage facilities. Ann. Oper. Res. 248 (2017) 253–280. [Google Scholar]
  • G. Li, X. He, J. Zhou and H. Wu, Pricing, replenishment and preservation technology investment decisions for non-instantaneous deteriorating items. Omega 84 (2018) 114–126. [Google Scholar]
  • G. Liu, J. Zhang and W. Tang, Joint dynamic pricing and investment strategy for perishable foods with price-quality dependent demand. Ann. Oper. Res. 226 (2015) 397–416. [Google Scholar]
  • L. Lu, J. Zhang and W. Tang, Optimal dynamic pricing and replenishment policy for perishable items with inventory-level-dependent demand. Int. J. Syst. Sci. 47 (2016) 1480–1494. [Google Scholar]
  • A. Mashud, M. Khan, M. Uddin and M. Islam, A non-instantaneous inventory model having different deterioration rates with stock and price dependent demand under partially backlogged shortages. Uncertain Supply Chain Manage. 6 (2018) 49–64. [CrossRef] [Google Scholar]
  • V.K. Mishra, Controllable deterioration rate for time-dependent demand and time-varying holding cost. Yugoslav J. Oper. Res. 24 (2014) 87–98. [Google Scholar]
  • V.K. Mishra, An inventory model of instantaneous deteriorating items with controllable deterioration rate for time dependent demand and holding cost. J. Ind. Eng. Manage. 6 (2013) 495–506. [Google Scholar]
  • U. Mishra, J.T. Aguilera, S. Tiwari and L.E.C. Barron, Retailer’s joint ordering, pricing, and preservation technology investment policies for a deteriorating item under permissible delay in payments. Math. Probl. Eng. 5 (2018) 1–14 [PubMed] [Google Scholar]
  • A.H. Nobil, L.E. Cáardenas-Barr and E. Nobil, Optimal and simple algorithms to solve integrated procurement-production-inventory problem without/with shortage. RAIRO: OR 52 (2018) 755–778. [Google Scholar]
  • A.H. Nobil, A. Kazemi and A.A. Taleizadeh, Single-machine lot scheduling problem for deteriorating items with negative exponential deterioration rate. RAIRO: OR 53 (2019) 1297–1307. [Google Scholar]
  • A.H. Nobil, A. Kazemi and A.A. Taleizadeh, Economic lot-size problem for a cleaner manufacturing system with warm-up period. RAIRO: OR 54 (2020) 1495–1514. [Google Scholar]
  • R. Pandey, S. Singh, B. Vaish and S. Tayal, An EOQ model with quantity incentive strategy for deteriorating items and partial backlogging. Uncertain Supply Chain Manage. 5 (2017) 135–142. [Google Scholar]
  • B. Pal, Optimal production model with quality sensitive market demand, partial backlogging and permissible delay in payment. RAIRO: OR 52 (2018) 499–512. [Google Scholar]
  • M. Palanivel and R. Uthayakumar, An inventory model with imperfect items, stock dependent demand and permissible delay in payments under inflation. RAIRO: OR 50 (2016) 473–489. [Google Scholar]
  • B. Sarkar and S. Sarkar, An improved model with partial backlogging, time varying deterioration and stock-dependent demand. Econ. Model. 30 (2013) 924–932. [Google Scholar]
  • B.K. Sett, B. Sarkar and A. Goswami, A two-warehouse inventory model with increasing demand and time varying deterioration. Sci. Iran. 19 (2012) 1969–1977. [Google Scholar]
  • N.H. Shah, H.N. Soni and K.A. Patel, Optimizing inventory and marketing policy for non-instantaneous deteriorating items with generalized type deterioration and holding cost rates. Omega 41 (2013) 421–430. [Google Scholar]
  • A.A. Shaikh, A.H.M. Mashud, M.S. Uddin, and M.A.A. Khan, Non instantaneous deterioration inventory model with price and stock dependent demand for fully backlogged shortages under inflation. Int. J. Bus. Forecasting Marketing Intell. 3 (2017) 152–164. [Google Scholar]
  • S. Singh, D. Khurana and S. Tayal, An economic order quantity model for deteriorating products having stock dependent demand with trade credit period and preservation technology. Uncertain Supply Chain Manage. 4 (2016) 29–42. [Google Scholar]
  • J.T. Teng, J. Min and Q. Pan, Economic order quantity model with trade credit financing for non-decreasing demand. Omega 40 (2012) 328–335. [Google Scholar]
  • S. Tiwari, L.E. Cárdenas-Barrón, A. Khanna and C.K. Jaggi, Impact of trade credit and inflation on retailer’s ordering policies for non-instantaneous deteriorating items in a two-warehouse environment. Int. J. Prod. Econ. 176 (2016) 154–169. [Google Scholar]
  • S. Tiwari, H.M. Wee and S. Sarkar, Lot-sizing policies for defective and deteriorating items with time-dependent demand and trade credit. Eur. J. Ind. Eng. 11 (2017) 683–703. [CrossRef] [Google Scholar]
  • S. Tiwari, L.E. Cárdenas-Barrón, M. Goh and A.A. Shaikh, Joint pricing and inventory model for deteriorating items with expiration dates and partial backlogging under two-level partial trade credits in supply chain. Int. J. Prod. Econ. 200 (2018) 16–36. [Google Scholar]
  • Y.C. Tsao and G.J. Sheen, Dynamic pricing, promotion and replenishment policies for a deteriorating item under permissible delay in payments. Comput. Oper. Res. 35 (2008) 3562–3580. [Google Scholar]
  • C.T. Yang, C.Y. Dye and J.F. Ding, Optimal dynamic trade credit and preservation technology allocation for a deteriorating inventory model. Comput. Ind. Eng. 87 (2015) 356–369. [Google Scholar]
  • J. Zhang, Z. Bai and W. Tang, Optimal pricing policy for deteriorating items with preservation technology investment. J. Ind. Manage. Optim. 10 (2014) 1261–1277. [Google Scholar]

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