How to cite this paper
Kumar, N & Kumar, S. (2016). Effect of learning and salvage worth on an inventory model for deteriorating items with inventory-dependent demand rate and partial backlogging with capability constraints.Uncertain Supply Chain Management, 4(2), 123-136.
Refrences
Adler, G.L., & Nanda, R. (1974). The effects of learning on optimal lot size determination, single product case. AIIE Transactions, 6(1), 14–20.
Buzacott L.A. (1975). Economic order quantities with inflation. Operations Research, 26(3), 553–558.
Chung K. J., & Lin C. N. (2001). Optimal inventory replenishment models for deteriorating items taking account of time discounting. Computers & Operations Research, 28(1), 67–83.
Datta T.K., Paul K., & Pal A.K. (1998). Demand promotion by up-gradation under stock-dependent demand situation – a model. International Journal of Production Economics, 55(1), 31–38.
Dave U. (1988). On the EOQ models with two levels of storage. Opsearch, 25(1), 190-196.
Deb M., & Chaudhuri K.S. (1986). An EOQ model for items with finite rate of production and variable rate of deterioration. Opsearch, 23(1), 175–181.
Dye C. Y. (2002). A deteriorating inventory model with stock-dependent demand and partial backlogging under conditions of permissible delay in payment. Opsearch, 39(1), 189–201.
Dye C.Y., Ouyang L.Y., & Hsieh T.P. (2007). Deterministic inventory model for deteriorating items with capacity constraint and time-proportional backlogging rate. European Journal of Operational Research, 178(3), 789–807.
Elmaghraby, S.E., (1990). Economic manufacturing quantities under conditions of learning and forgetting (EMQ/LaF). Production Planning and Control, 1(4), 196–208.
Ghare P.M, & Schrader G.H. (1963). A model for exponentially decaying inventory system. International Journal of Production Research, 21(1), 449–460.
Goswami A., & Chaudhary K.S. (1998). On an inventory model with two levels of storage and stock-dependent demand rate. International Journal of Systems Sciences, 29(3), 249-254.
Goyal S.K, & Giri B.C. (2003). The production-inventory problem of a product with time varying demand, production and deterioration rates. European Journal of Operational Research, 147(3), 549–557.
Goyal S.K., & Giri B.C. (2001). Recent trends in modeling of deteriorating inventory. European Journal of Operational Research, 134(1), 1–16.
Gupta R., & Vrat P. (1986). Inventory model with multi-items under constraint systems for stock dependent consumption rate. Operations Research, 24(1), 41–42.
Hartley R.V. (1976). Operations Research—A Managerial Emphasis. Good Year Publishing Company, California, 315-317.
Hollier R.H., & Mak. K.L. (1983). Inventory replenishment policies for deteriorating items in a declining market. International Journal of Production Economics, 21(7), 813–826.
Jaber, M.Y. (2006). Learning and forgetting models and their applications. In: Badiru, A.B. (Ed.), Handbook of Industrial and Systems engineering. CRC Press, Boca Raton, FL, 30.1-30.27.
Jaber, M.Y., & Bonney, M. (1996). Production breaks and the learning curve: the forgetting phenomenon. Applied Mathematical Modelling, 20(2), 162–169.
Jaber, M.Y., & Bonney, M. (1997). The effect of learning and forgetting on the economic manufactured quantity (EMQ) with consideration of intracycle backorders. International Journal of Production Economics, 53(1), 1–11.
Jaber, M.Y., & Bonney, M. (1998). The effect of learning and forgetting on the optimal lot size quantity of intermittent production runs. Production Planning and Control, 9(1), 20–27.
Jaber, M.Y., Bonney, M., & Moualek, I. (2009). Lot sizing with learning, forgetting and entropy cost. International Journal of Production Economics, 118(1), 19-25.
Jaber, M.Y., & El Saadany, A.M.A. (2011). An economic production and remanufacturing model with learning effects. International Journal of Production Economics, 131(1), 115-127.
Jaber, M.Y., & Salameh, M.K. (1995). Optimal lot sizing under learning consideration: shortages allowed and backordered. Applied Mathematical Modelling, 19(5), 307–310.
Kar S., Bhunia A.K., & Maiti M. (2001). Deterministic inventory model with two levels of storage, a linear trend in demand and a fixed time horizon. Computers & Operations Research, 28(13), 1315-1331.
Keachie, E.C., & Fontana, R.J. (1966). Effects of learning on optimal lot size. Management Science, 13(2), B102–B108.
Khan, M., Jaber, M.Y., & Wahab, M.I.M. (2010). Economic order quantity model for items with imperfect quality with clearning in inspection. International Journal of Production Economics, 124(1), 87-96.
Kumar, N., Singh, S.R., & Kumari, R. (2012). An inventory model with time – dependent demand and limited storage facility under inflation. Advances in Operations Research, 12(1), 0- 17.
Kumar, N., Singh, S.R., & Kumari, R. (2013). Two-warehouse inventory model with K-release rule and learning effect. International Journal of Procurement Management, 6(1), 76-91.
Levin R.I., McLaughlin C.P., Lamone R.P., & Kottas J.F. (1972). Productions operations management: contemporary policy for managing operating systems. McGraw-Hill, New York, 373.
Mandal B.N., & Phaujdar S. (1989). An inventory model for deteriorating items and stock-dependent consumption rate. Journal Operational Research Society, 40(5), 483–488.
Mishra, P., & Shah, H.N., (2008). Inventory management of time dependent deteriorating items with salvage value, Applied Mathematical Sciences, 2(16), 793 – 798.
Murdeshwar T.A., & Sathe Y.S. (1985). Some aspects of lot size model with two levels of storage. Opsearch, 22(1), 255-262.
Muth, E.J., & Spremann, K., (1983). Learning effects in economic lot sizing. Management Science, 29(2), 264–269.
Pakkala T.P.M., & Achary K.K. (1992). A deterministic inventory model for deteriorating items with two- warehouses and finite replenishment rate. European Journal of Operational Research, 57(1), 157-167.
Park K.S. (1982). Inventory models with partial backorders. International Journal of Systems Science, 13(12), 1313–1317.
Philip G.C. (1974). A generalized EOQ model for items with Weibull distribution. AIIE Transactions, 6(2), 159–162.
Salameh, M.K., Abdul-Malak, M.U., & Jaber, M.Y., (1993). Mathematical modeling of the effect of human learning in the finite production inventory model. Applied Mathematical Modelling, 17(11), 613–615.
Sana S., & Chaudhuri K.S. (2003). An EOQ model with Time-dependent demand Inflation and money value for ware-house enterprises. Advanced Modeling and Optimization, 5(2), 135–146.
Sarma K.V.S. (1983). A deterministic inventory model with two level of storage and an optimum release rule. Opsearch, 20(1), 175-180.
Sarma K.V.S. (1987). A deterministic order level inventory model for deteriorating items with two storage facilities. European Journal of Operational Research, 29(1), 70-73.
Shah N.H., & Mishra, P (2010). An EOQ Model for deteriorating items under suppler cridts when demand is stock-dependent. Yugoslav Journal of Operations Research, 20(1), 145-156.
Singh S.R., Kumar N., & Kumari R. (2008). Two-Warehouse inventory model for deteriorating items with partial backlogging under the conditions of permissible delay in payments. International Transactions in Mathematical Sciences & Computer, 1(1), 123-134.
Singh S.R., Kumar N., & Kumari R. (2009). Two-warehouse Inventory Model for Deteriorating Items with Shortages under Inflation and Time-value of Money. International Journal of Computational and Applied Mathematics, 4(1), 83–94.
Singh, C., & Singh, S.R. (2013). Optimal ordering policy for deteriorating items with power-form stock dependent demand under two-warehouse storage facility. Opsearch, 50(2), 182-196.
Singh, S.R., Kumar, N., & Kumari, R., (2010). An inventory model for deteriorating items with shortages and stock-dependent demand under inflation for two-shops under one management. Opsearch, 47(4), 311-329.
Singh, S.R., Kumari, R., & Kumar, N., (2011). A deterministic two-warehouse inventory model for deteriorating items with sock-dependent demand and shortages under the conditions of permissible delay. International Journal of mathematical Modelling and Optimisation, 11(3), 357-375.
Uthayakumar, R., & Geetha, K. V., (2009). Replenishment policy for single item inventory model with money inflation. Opsearch, 46(3), 345–357.
Vrat P., & Padmanaban G. (1990). An inventory model under inflation for stock dependent consumption rate items. Engineering Costs and Production Economics, 19(1 – 3), 379–383.
Wee H. M., Yu J.C.P., & Law S.T. (2005). Two-warehouse inventory model with partial backordering and Weibull distribution deterioration under inflation. Journal of the Chinese Institute of Industrial Engineers, 22(6), 451-462.
Wee H.M. (1995). A deterministic lot-size inventory model for deteriorating items with shortages and a declining market. Computers & Operations Research, 22(3), 345–356.
Wright, T., (1936). Factors affecting the cost of airplanes. Journal of Aeronautical Science, 3(2), 122–128.
Wu, K.S., Ouyang, L.Y., & Yang, C.T., (2006). An optimal replenishment policy for non-instantaneous deteriorating items with stock-dependent demand and partial backlogging. International Journal Production Economic, 101(2), 369–384.
Yang H.L. (2004). Two-warehouse inventory models for deteriorating items with shortages under inflation. European Journal of Operational Research, 157(2), 344–356.
Yang H.L. (2006). Two-warehouse partial backlogging inventory models for deteriorating items under inflation. Int. J. Production Economics, 103(1), 362–370.
Zanoni, S., Jaber, M.Y., & Zavanella, L.E., (2012). Vendor managed inventory (VMI) with consignment considering learning and forgetting effects. International Journal of Production Economics, 140 2), 721-730.
Zhou Y.W., & Yang S.L. (2005). A two-warehouse inventory model for items with stock-level-dependent demand rate. International Journal Production Economics, 95(2), 215–228.
Buzacott L.A. (1975). Economic order quantities with inflation. Operations Research, 26(3), 553–558.
Chung K. J., & Lin C. N. (2001). Optimal inventory replenishment models for deteriorating items taking account of time discounting. Computers & Operations Research, 28(1), 67–83.
Datta T.K., Paul K., & Pal A.K. (1998). Demand promotion by up-gradation under stock-dependent demand situation – a model. International Journal of Production Economics, 55(1), 31–38.
Dave U. (1988). On the EOQ models with two levels of storage. Opsearch, 25(1), 190-196.
Deb M., & Chaudhuri K.S. (1986). An EOQ model for items with finite rate of production and variable rate of deterioration. Opsearch, 23(1), 175–181.
Dye C. Y. (2002). A deteriorating inventory model with stock-dependent demand and partial backlogging under conditions of permissible delay in payment. Opsearch, 39(1), 189–201.
Dye C.Y., Ouyang L.Y., & Hsieh T.P. (2007). Deterministic inventory model for deteriorating items with capacity constraint and time-proportional backlogging rate. European Journal of Operational Research, 178(3), 789–807.
Elmaghraby, S.E., (1990). Economic manufacturing quantities under conditions of learning and forgetting (EMQ/LaF). Production Planning and Control, 1(4), 196–208.
Ghare P.M, & Schrader G.H. (1963). A model for exponentially decaying inventory system. International Journal of Production Research, 21(1), 449–460.
Goswami A., & Chaudhary K.S. (1998). On an inventory model with two levels of storage and stock-dependent demand rate. International Journal of Systems Sciences, 29(3), 249-254.
Goyal S.K, & Giri B.C. (2003). The production-inventory problem of a product with time varying demand, production and deterioration rates. European Journal of Operational Research, 147(3), 549–557.
Goyal S.K., & Giri B.C. (2001). Recent trends in modeling of deteriorating inventory. European Journal of Operational Research, 134(1), 1–16.
Gupta R., & Vrat P. (1986). Inventory model with multi-items under constraint systems for stock dependent consumption rate. Operations Research, 24(1), 41–42.
Hartley R.V. (1976). Operations Research—A Managerial Emphasis. Good Year Publishing Company, California, 315-317.
Hollier R.H., & Mak. K.L. (1983). Inventory replenishment policies for deteriorating items in a declining market. International Journal of Production Economics, 21(7), 813–826.
Jaber, M.Y. (2006). Learning and forgetting models and their applications. In: Badiru, A.B. (Ed.), Handbook of Industrial and Systems engineering. CRC Press, Boca Raton, FL, 30.1-30.27.
Jaber, M.Y., & Bonney, M. (1996). Production breaks and the learning curve: the forgetting phenomenon. Applied Mathematical Modelling, 20(2), 162–169.
Jaber, M.Y., & Bonney, M. (1997). The effect of learning and forgetting on the economic manufactured quantity (EMQ) with consideration of intracycle backorders. International Journal of Production Economics, 53(1), 1–11.
Jaber, M.Y., & Bonney, M. (1998). The effect of learning and forgetting on the optimal lot size quantity of intermittent production runs. Production Planning and Control, 9(1), 20–27.
Jaber, M.Y., Bonney, M., & Moualek, I. (2009). Lot sizing with learning, forgetting and entropy cost. International Journal of Production Economics, 118(1), 19-25.
Jaber, M.Y., & El Saadany, A.M.A. (2011). An economic production and remanufacturing model with learning effects. International Journal of Production Economics, 131(1), 115-127.
Jaber, M.Y., & Salameh, M.K. (1995). Optimal lot sizing under learning consideration: shortages allowed and backordered. Applied Mathematical Modelling, 19(5), 307–310.
Kar S., Bhunia A.K., & Maiti M. (2001). Deterministic inventory model with two levels of storage, a linear trend in demand and a fixed time horizon. Computers & Operations Research, 28(13), 1315-1331.
Keachie, E.C., & Fontana, R.J. (1966). Effects of learning on optimal lot size. Management Science, 13(2), B102–B108.
Khan, M., Jaber, M.Y., & Wahab, M.I.M. (2010). Economic order quantity model for items with imperfect quality with clearning in inspection. International Journal of Production Economics, 124(1), 87-96.
Kumar, N., Singh, S.R., & Kumari, R. (2012). An inventory model with time – dependent demand and limited storage facility under inflation. Advances in Operations Research, 12(1), 0- 17.
Kumar, N., Singh, S.R., & Kumari, R. (2013). Two-warehouse inventory model with K-release rule and learning effect. International Journal of Procurement Management, 6(1), 76-91.
Levin R.I., McLaughlin C.P., Lamone R.P., & Kottas J.F. (1972). Productions operations management: contemporary policy for managing operating systems. McGraw-Hill, New York, 373.
Mandal B.N., & Phaujdar S. (1989). An inventory model for deteriorating items and stock-dependent consumption rate. Journal Operational Research Society, 40(5), 483–488.
Mishra, P., & Shah, H.N., (2008). Inventory management of time dependent deteriorating items with salvage value, Applied Mathematical Sciences, 2(16), 793 – 798.
Murdeshwar T.A., & Sathe Y.S. (1985). Some aspects of lot size model with two levels of storage. Opsearch, 22(1), 255-262.
Muth, E.J., & Spremann, K., (1983). Learning effects in economic lot sizing. Management Science, 29(2), 264–269.
Pakkala T.P.M., & Achary K.K. (1992). A deterministic inventory model for deteriorating items with two- warehouses and finite replenishment rate. European Journal of Operational Research, 57(1), 157-167.
Park K.S. (1982). Inventory models with partial backorders. International Journal of Systems Science, 13(12), 1313–1317.
Philip G.C. (1974). A generalized EOQ model for items with Weibull distribution. AIIE Transactions, 6(2), 159–162.
Salameh, M.K., Abdul-Malak, M.U., & Jaber, M.Y., (1993). Mathematical modeling of the effect of human learning in the finite production inventory model. Applied Mathematical Modelling, 17(11), 613–615.
Sana S., & Chaudhuri K.S. (2003). An EOQ model with Time-dependent demand Inflation and money value for ware-house enterprises. Advanced Modeling and Optimization, 5(2), 135–146.
Sarma K.V.S. (1983). A deterministic inventory model with two level of storage and an optimum release rule. Opsearch, 20(1), 175-180.
Sarma K.V.S. (1987). A deterministic order level inventory model for deteriorating items with two storage facilities. European Journal of Operational Research, 29(1), 70-73.
Shah N.H., & Mishra, P (2010). An EOQ Model for deteriorating items under suppler cridts when demand is stock-dependent. Yugoslav Journal of Operations Research, 20(1), 145-156.
Singh S.R., Kumar N., & Kumari R. (2008). Two-Warehouse inventory model for deteriorating items with partial backlogging under the conditions of permissible delay in payments. International Transactions in Mathematical Sciences & Computer, 1(1), 123-134.
Singh S.R., Kumar N., & Kumari R. (2009). Two-warehouse Inventory Model for Deteriorating Items with Shortages under Inflation and Time-value of Money. International Journal of Computational and Applied Mathematics, 4(1), 83–94.
Singh, C., & Singh, S.R. (2013). Optimal ordering policy for deteriorating items with power-form stock dependent demand under two-warehouse storage facility. Opsearch, 50(2), 182-196.
Singh, S.R., Kumar, N., & Kumari, R., (2010). An inventory model for deteriorating items with shortages and stock-dependent demand under inflation for two-shops under one management. Opsearch, 47(4), 311-329.
Singh, S.R., Kumari, R., & Kumar, N., (2011). A deterministic two-warehouse inventory model for deteriorating items with sock-dependent demand and shortages under the conditions of permissible delay. International Journal of mathematical Modelling and Optimisation, 11(3), 357-375.
Uthayakumar, R., & Geetha, K. V., (2009). Replenishment policy for single item inventory model with money inflation. Opsearch, 46(3), 345–357.
Vrat P., & Padmanaban G. (1990). An inventory model under inflation for stock dependent consumption rate items. Engineering Costs and Production Economics, 19(1 – 3), 379–383.
Wee H. M., Yu J.C.P., & Law S.T. (2005). Two-warehouse inventory model with partial backordering and Weibull distribution deterioration under inflation. Journal of the Chinese Institute of Industrial Engineers, 22(6), 451-462.
Wee H.M. (1995). A deterministic lot-size inventory model for deteriorating items with shortages and a declining market. Computers & Operations Research, 22(3), 345–356.
Wright, T., (1936). Factors affecting the cost of airplanes. Journal of Aeronautical Science, 3(2), 122–128.
Wu, K.S., Ouyang, L.Y., & Yang, C.T., (2006). An optimal replenishment policy for non-instantaneous deteriorating items with stock-dependent demand and partial backlogging. International Journal Production Economic, 101(2), 369–384.
Yang H.L. (2004). Two-warehouse inventory models for deteriorating items with shortages under inflation. European Journal of Operational Research, 157(2), 344–356.
Yang H.L. (2006). Two-warehouse partial backlogging inventory models for deteriorating items under inflation. Int. J. Production Economics, 103(1), 362–370.
Zanoni, S., Jaber, M.Y., & Zavanella, L.E., (2012). Vendor managed inventory (VMI) with consignment considering learning and forgetting effects. International Journal of Production Economics, 140 2), 721-730.
Zhou Y.W., & Yang S.L. (2005). A two-warehouse inventory model for items with stock-level-dependent demand rate. International Journal Production Economics, 95(2), 215–228.