How to cite this paper
Singh, S., Jain, S & Pareek, S. (2014). An economic production model for time dependent demand with rework and multiple production setups.International Journal of Industrial Engineering Computations , 5(2), 305-314.
Refrences
Dobos, I., Richter, K. (2004). An extended production/recycling model with stationary demand and return rates. International Journal of Production Economics, 90, 311–323.
Goyal, S.K., & Gunasekaran, A. (1995). An integrated production-inventory-marketing model for deteriorating items. Computer of Industrial Engineering, 28 (4), 755–762.
Khan, M., Jaber, M. Y., Guiffrida, A. L., & Zolfaghari, S. (2011). A review of the extensions of a modified EOQ model for imperfect quality items. International Journal of Production Economics, 132(1), 1-12.
Khouja, M. (2000). The economic lot and delivery scheduling problem: common cycle, rework, and variable production rate. IIE Transactions, 32(8), 715–725.
Schrady, D.A. (1967). A deterministic inventory model for repairable items. Naval Research Logistics, 48, 484–495.
Singh, S.R., Vaish, B., & Singh, N. (2012). An economic production lot-size (EPLS) model with rework and flexibility under allowable shortages. International Journal of Procurement Management, 5(1), 104-122.
Singh, S.R., Yadav, D., & Kumari, R. (2013). Three stage supply chain coordination under fuzzy random demand and production rate with imperfect production process. International Journal of Operational Research, 16(4), 421-447.
Singh, S.R., Yadav, D., & Kumari, R. (2011). A fuzzy multi-item production model with reliability and flexibility under limited storage capacity with deterioration via geometric programming. International Journal of Mathematics in Operational Research, 3(1), 78-98.
Singh, S. R., Jain, S., & Pareek, S. (2012). A Warehouse Imperfect Fuzzified Production Model with Shortages under Inflationary Conditions. Advances in Decision Sciences, Article ID 638060, 16 pages, (2012) doi:10.1155/2012/638060.
Singh, S., Jain, S., & Pareek, S. (2013). An imperfect quality items with learning and inflation under two limited storage capacity. International Journal of Industrial Engineering Computations, 4(4), 479-490.
Taleizadeh, A.A., Sadjadi, S.J., & Niaki, S.T.A. (2011). Multiproduct EPQ model with single machine, backordering, and immediate rework process. European Journal of Industrial Engineering, 5, 388–411.
Teunter, R. (2004). Lot-sizing for inventory systems with product recovery. Computers & Industrial Engineering, 46, 431–441.
Wee, H.M. (1993). Economic production lot-size model for deteriorating items with partial backordering. Computers and Industrial Engineering, 20, 187–197.
Widyadana, G.A., & Wee, H.M. (2010). Revisiting lot sizing for an inventory system with product recovery. Computers and Mathematics with Applications, 59, 2933–2939.
Widyadana, G.A., Cardenas-Barron, L.E., & Wee, H.M. (2011). Economic order quantity model for deteriorating items and planned backorder level. Mathematical and Computer Modelling, 54, 1569–1575.
Widyadana, G.A., & Wee, H. M. (2012). An economic production quantity model for deteriorating items with multiple production setups and rework. International Journal of Production Economics, 138, 62-67.
Goyal, S.K., & Gunasekaran, A. (1995). An integrated production-inventory-marketing model for deteriorating items. Computer of Industrial Engineering, 28 (4), 755–762.
Khan, M., Jaber, M. Y., Guiffrida, A. L., & Zolfaghari, S. (2011). A review of the extensions of a modified EOQ model for imperfect quality items. International Journal of Production Economics, 132(1), 1-12.
Khouja, M. (2000). The economic lot and delivery scheduling problem: common cycle, rework, and variable production rate. IIE Transactions, 32(8), 715–725.
Schrady, D.A. (1967). A deterministic inventory model for repairable items. Naval Research Logistics, 48, 484–495.
Singh, S.R., Vaish, B., & Singh, N. (2012). An economic production lot-size (EPLS) model with rework and flexibility under allowable shortages. International Journal of Procurement Management, 5(1), 104-122.
Singh, S.R., Yadav, D., & Kumari, R. (2013). Three stage supply chain coordination under fuzzy random demand and production rate with imperfect production process. International Journal of Operational Research, 16(4), 421-447.
Singh, S.R., Yadav, D., & Kumari, R. (2011). A fuzzy multi-item production model with reliability and flexibility under limited storage capacity with deterioration via geometric programming. International Journal of Mathematics in Operational Research, 3(1), 78-98.
Singh, S. R., Jain, S., & Pareek, S. (2012). A Warehouse Imperfect Fuzzified Production Model with Shortages under Inflationary Conditions. Advances in Decision Sciences, Article ID 638060, 16 pages, (2012) doi:10.1155/2012/638060.
Singh, S., Jain, S., & Pareek, S. (2013). An imperfect quality items with learning and inflation under two limited storage capacity. International Journal of Industrial Engineering Computations, 4(4), 479-490.
Taleizadeh, A.A., Sadjadi, S.J., & Niaki, S.T.A. (2011). Multiproduct EPQ model with single machine, backordering, and immediate rework process. European Journal of Industrial Engineering, 5, 388–411.
Teunter, R. (2004). Lot-sizing for inventory systems with product recovery. Computers & Industrial Engineering, 46, 431–441.
Wee, H.M. (1993). Economic production lot-size model for deteriorating items with partial backordering. Computers and Industrial Engineering, 20, 187–197.
Widyadana, G.A., & Wee, H.M. (2010). Revisiting lot sizing for an inventory system with product recovery. Computers and Mathematics with Applications, 59, 2933–2939.
Widyadana, G.A., Cardenas-Barron, L.E., & Wee, H.M. (2011). Economic order quantity model for deteriorating items and planned backorder level. Mathematical and Computer Modelling, 54, 1569–1575.
Widyadana, G.A., & Wee, H. M. (2012). An economic production quantity model for deteriorating items with multiple production setups and rework. International Journal of Production Economics, 138, 62-67.