How to cite this paper
Sekar, T & Uthayakumar, R. (2018). A production inventory model for single vendor single buyer integrated demand with multiple production setups and rework.Uncertain Supply Chain Management, 6(1), 75-90.
Refrences
Banerjee, A. (1986). A joint economic‐lot‐size model for purchaser and vendor. Decision Sciences, 17(3), 292-311.
Banerjee, A., & Kim, S. L. (1995). An integrated JIT inventory model. International Journal of Operations & Production Management, 15(9), 237-244.
Barketau, M. S., Cheng, T. E., & Kovalyov, M. Y. (2008). Batch scheduling of deteriorating reworkables. European Journal of Operational Research, 189(3), 1317-1326.
Benkherouf, L., & Omar, M. (2010). Optimal integrated policies for a single-vendor single-buyer time-varying demand model. Computers & Mathematics with Applications, 60(7), 2066-2077.
Buscher, U., & Lindner, G. (2007). Optimizing a production system with rework and equal sized batch shipments. Computers & Operations Research, 34(2), 515-535.
Cárdenas-Barrón, L. E. (2008). Optimal manufacturing batch size with rework in a single-stage production system–a simple derivation. Computers & Industrial Engineering, 55(4), 758-765.
Chiu, S. W., Wang, S. L., & Chiu, Y. S. P. (2007). Determining the optimal run time for EPQ model with scrap, rework, and stochastic breakdowns. European Journal of Operational Research, 180(2), 664-676.
Chiu, Y.S.P., Lin, Y.C., Chiu, S.W., & Ting, C.K. (2012). Joint determination of lot-size and shipment policy for a vendor-buyer system with rework and an improving delivery plan. African Journal of Business Management, 6(1), 333-340.
Chiu, S. W., Tseng, C. T., Wu, M. F., & Sung, P. C. (2014). Multi-item EPQ model with scrap, rework and multi-delivery using common cycle policy. Journal of applied research and technology, 12(3), 615-622.
Chung, K. J., Her, C. C., & Lin, S. D. (2009). A two-warehouse inventory model with imperfect quality production processes. Computers & Industrial Engineering, 56(1), 193-197.
Covert, R.P., & Philip, G.C. (1973). An EOQ model for items with Weibull distribution deterioration. AIIE Transactions, 5(4), 323-326.
Dhandapani, J., & Uthayakumar, R. (2017). Multi-item EOQ model for fresh fruits with preservation technology investment, time-varying holding cost, variable deterioration and shortages. Journal of Control and Decision, 4(2), 70-80.
Drury, C.G. (1978). Integrating human factors models into statistical quality control. Human Factors: The Journal of the Human Factors and Ergonomics Society, 20(5), 561-572.
Drury, C.G., & Prabhu, P.V. (1994). Human factors in test and inspection. In G. Salvendy & W. Karwowski (Eds.), Design of work and development of personnel in advanced manufacturing (pp. 355-401). New York: John Wiley & Sons Inc.
Goyal, S.K. (1977). Determination of optimal production quantity for a two-stage production system. Operational Research Quarterly, 28, 865–870.
Lu, L. (1995). A one-vendor multi-buyer integrated inventory model. European Journal of Operational Research, 81(2), 312-323.
Hill, R.M. (1977). The single-vendor single-buyer integrated production-inventory model with a generalized policy. European Journal of Operational Research. 97(3), 493–499.
Hill, R. M. (1999). The optimal production and shipment policy for the single-vendor singlebuyer integrated production-inventory problem. International Journal of Production Research, 37(11), 2463-2475.
Hill, R.M., & Omar, M. (2006). Another look at the single-vendor single-buyer integrated production-inventory problem. International Journal of Production Research, 44(4), 791–800.
Hsu, J., & Hsu, L. (2012). An integrated single-vendor single-buyer production-inventory model for items with imperfect quality and inspection errors. International Journal of Industrial Engineering Computations, 3(5), 703-720.
Hsu, L.F., & Hsu, J.T. (2014). Economic production quantity (EPQ) models under an imperfect production process with shortages backordered. International Journal of Systems Science, 47(4), 852-867.
Inderfurth*, K., Lindner, G., & Rachaniotis, N. P. (2005). Lot sizing in a production system with rework and product deterioration. International Journal of Production Research, 43(7), 1355-1374.
Jaber, M. Y., & Goyal, S. K. (2008). Coordinating a three-level supply chain with multiple suppliers, a vendor and multiple buyers. International Journal of Production Economics, 116(1), 95-103.
Jaggi, C.K., Tiwari, S., & Shafi, A. (2015). Effect of deterioration on two-warehouse inventory model with imperfect quality. Computers & Industrial Engineering, 88, 378–385.
Jawla, P., & Singh, S. (2016). Multi-item economic production quantity model for imperfect items with multiple production setups and rework under the effect of preservation technology and learning environment. International Journal of Industrial Engineering Computations, 7(4), 703-716.
Jolai, F., Tavakkoli-Moghaddam, R., Rabbani, M., & Sadoughian, M. R. (2006). An economic production lot size model with deteriorating items, stock-dependent demand, inflation, and partial backlogging. Applied Mathematics and Computation, 181(1), 380-389.
Kaur, M., Pareek, S., & Tripathi, R.P. (2016). Optimal ordering policy with non- increasing demand for time dependent deterioration under fixed life time production and permissible delay in payments. International Journal of Operations Research, 13(2), 035-046.
Khanna, A., Kishore, A., & Jaggi, C. (2017). Strategic production modeling for defective items with imperfect inspection process, rework, and sales return under two-level trade credit. International Journal of Industrial Engineering Computations, 8(1), 85-118.
Koh, S. G., Hwang, H., Sohn, K. I., & Ko, C. S. (2002). An optimal ordering and recovery policy for reusable items. Computers & Industrial Engineering, 43(1), 59-73.
Kumar, M., Chauhan, A., & Kumar, P. (2011). Economic production lot size model with stochastic demand and shortage partial backlogging rate under imperfect quality items. International Journal of Advanced Science and Technology (IJAST), 31(1), 1-22.
Kundu, S., & Chakrabarti, T. (2015). An integrated multi-stage supply chain inventory model with imperfect production process. International Journal of Industrial Engineering Computations, 6(4), 568-580.
Lee. J. H., & Moon, I. K, (2006). Coordinated inventory models with compensation policy in a three-level supply chain, Lect. Notes in Computer Science, 3982, 600–609.
Li, N., Chan, F.T.S., Chung, S.H., & Tai, A.H. (2015). A Modified EPQ model with deteriorating production system and deteriorating product. Proceedings of the world congress on mechanical, chemical, and material engineering (MCM 2015). Barcelona, Spain, July 20 - 21, Paper No. 249.
Mishra, V.K., Singh, L.S., & Kumar, R. (2013). An inventory model for deteriorating items with time-dependent demand and time-varying holding cost under partial backlogging. Journal of Industrial Engineering International, 9(1), 4.
Mukhopadhyay, A., & Goswami, A. (2015). Economic production quantity model for three type imperfect items with rework and learning in setup. An international journal of Optimization and control: Theories & Applications, 4(1), 57-65.
Munson, C.L., & Rosenblatt, M.J. (2001). Coordinating a three-level supply chain with quantity discount. IIE Transactions, 33(5), 371–384.
Omar, M., Sarker, R., & Othman, W. A. M. (2013). A just-in-time three-level integrated manufacturing system for linearly time-varying demand process. Applied Mathematical Modelling, 37(3), 1275-1281.
Pal, S., Mahapatra, G.S., & Samanta, G.P. (2015). A production model for deteriorating item with ramp type demand allowing inflation and shortages under fuzziness. Economic modelling, 46, 334-345.
Papachristos, S., & Konstantaras, I. (2006). Economic ordering quantity models for items with imperfect quality. International Journal of Production Economics, 100(1), 148-154.
Rastogi, M., Singh, S., Kushwah, P., & Tayal, S. (2017). Two warehouse inventory policy with price dependent demand and deterioration under partial backlogging. Decision Science Letters, 6(1), 11-22.
Rezaei, J., & Salimi, N. (2012). Economic order quantity and purchasing price for items with imperfect quality when inspection shifts from buyer to supplier. International Journal of Production Economics, 137(1), 11-18.
Salameh, M. K., & Jaber, M. Y. (2000). Economic production quantity model for items with imperfect quality. International journal of production economics, 64(1), 59-64.
Sarkar, B., Cárdenas-Barrón, L. E., Sarkar, M., & Singgih, M. L. (2014). An economic production quantity model with random defective rate, rework process and backorders for a single stage production system. Journal of Manufacturing Systems, 33(3), 423-435.
Schrady, D. A. (1967). A deterministic inventory model for reparable items. Naval Research Logistics Quarterly, 14(3), 391-398.
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.
Singh, S. R., Agarwal, A., & Rani, S. (2015). Mathematical Production Inventory model for deteriorating items with time dependent demand rate under the effect of inflation and shortage. International Journal of Computer & mathematical Science, 4, 138-148.
Singh, S., Khurana, D., & Tayal, S. (2016). An economic order quantity model for deteriorating products having stock dependent demand with trade credit period and preservation technology. Uncertain Supply Chain Management, 4(1), 29-42.
Tai, A. H. (2013). Economic production quantity models for deteriorating/imperfect products and service with rework. Computers & Industrial Engineering, 66(4), 879-88.
Taleizadeh, A.A., Noori-daryan, M., & Tavakkoli-Moghaddam, R. (2015a). Pricing and ordering decisions in a supply chain with imperfect quality items and inspection under buyback of defective items. International Journal of Production Research, 53(15), 4553–4582.
Taleizadeh, A.A., Noori-daryan, M., & Cárdenas-Barrón, L.E. (2015b). Joint optimization of price, replenishment frequency, replenishment cycle and production rate in vendor managed inventory system with deteriorating items. International Journal of Production Economics, 159, 285–295.
Taleizadeh, A., Kalantari, S.S., & Cardenas-Barron, L.E. (2015c). Determining optimal price, replenishment lot size and number of shipments for an EPQ model with rework and multiple shipments. Journal of Industrial and Management Optimization, 11(4),1059-1071.
Tavakoli, E., & Mirzaee, M. (2014). Coordination of a three-level supply chain under disruption using profit sharing and return policy contracts. International Journal of Industrial Engineering Computations, 5(1), 139-150.
Ullah, M., & Kang, C.W. (2014). Effect of Rework, Rejects and Inspection on Lot Size with Work-in-process Inventory. International Journal of Production Research, 52(8), 2448–2460.
Valentini, G., & Zavanella, L. (2003).The consignment stock of inventories: industrial case study and performance analysis. International Journal of Production Economics, 81, 215–224.
Wagner, H.M., & Whitin, T.M. (1958). Dynamic version of economic lot size model. Management Science, 5(1), 89-96.
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(1), 62–67.
Yang, M.F., Lo, M.C., & Lu, T.P. (2013). A vendor-buyers integrated inventory model involving quality improvement investment in a supply chain. Journal of Marine Science and Technology, 21(5), 586-593.
Yassine, A., Maddah, B., & Salameh, M. (2012). Disaggregation and consolidation of imperfect quality shipments in an extended EPQ model. International Journal of Production Economics, 135(1), 345–52.
Yoo, S. H., Kim, D., & Park, M. S. (2009). Economic production quantity model with imperfect-quality items, two-way imperfect inspection and sales return. International Journal of Production Economics, 121(1), 255-265.
Zanoni, S., & Grubbstrom*, R. W. (2004). A note on an industrial strategy for stock management in supply chains: modelling and performance evaluation. International Journal of Production Research, 42(20), 4421-4426.
Banerjee, A., & Kim, S. L. (1995). An integrated JIT inventory model. International Journal of Operations & Production Management, 15(9), 237-244.
Barketau, M. S., Cheng, T. E., & Kovalyov, M. Y. (2008). Batch scheduling of deteriorating reworkables. European Journal of Operational Research, 189(3), 1317-1326.
Benkherouf, L., & Omar, M. (2010). Optimal integrated policies for a single-vendor single-buyer time-varying demand model. Computers & Mathematics with Applications, 60(7), 2066-2077.
Buscher, U., & Lindner, G. (2007). Optimizing a production system with rework and equal sized batch shipments. Computers & Operations Research, 34(2), 515-535.
Cárdenas-Barrón, L. E. (2008). Optimal manufacturing batch size with rework in a single-stage production system–a simple derivation. Computers & Industrial Engineering, 55(4), 758-765.
Chiu, S. W., Wang, S. L., & Chiu, Y. S. P. (2007). Determining the optimal run time for EPQ model with scrap, rework, and stochastic breakdowns. European Journal of Operational Research, 180(2), 664-676.
Chiu, Y.S.P., Lin, Y.C., Chiu, S.W., & Ting, C.K. (2012). Joint determination of lot-size and shipment policy for a vendor-buyer system with rework and an improving delivery plan. African Journal of Business Management, 6(1), 333-340.
Chiu, S. W., Tseng, C. T., Wu, M. F., & Sung, P. C. (2014). Multi-item EPQ model with scrap, rework and multi-delivery using common cycle policy. Journal of applied research and technology, 12(3), 615-622.
Chung, K. J., Her, C. C., & Lin, S. D. (2009). A two-warehouse inventory model with imperfect quality production processes. Computers & Industrial Engineering, 56(1), 193-197.
Covert, R.P., & Philip, G.C. (1973). An EOQ model for items with Weibull distribution deterioration. AIIE Transactions, 5(4), 323-326.
Dhandapani, J., & Uthayakumar, R. (2017). Multi-item EOQ model for fresh fruits with preservation technology investment, time-varying holding cost, variable deterioration and shortages. Journal of Control and Decision, 4(2), 70-80.
Drury, C.G. (1978). Integrating human factors models into statistical quality control. Human Factors: The Journal of the Human Factors and Ergonomics Society, 20(5), 561-572.
Drury, C.G., & Prabhu, P.V. (1994). Human factors in test and inspection. In G. Salvendy & W. Karwowski (Eds.), Design of work and development of personnel in advanced manufacturing (pp. 355-401). New York: John Wiley & Sons Inc.
Goyal, S.K. (1977). Determination of optimal production quantity for a two-stage production system. Operational Research Quarterly, 28, 865–870.
Lu, L. (1995). A one-vendor multi-buyer integrated inventory model. European Journal of Operational Research, 81(2), 312-323.
Hill, R.M. (1977). The single-vendor single-buyer integrated production-inventory model with a generalized policy. European Journal of Operational Research. 97(3), 493–499.
Hill, R. M. (1999). The optimal production and shipment policy for the single-vendor singlebuyer integrated production-inventory problem. International Journal of Production Research, 37(11), 2463-2475.
Hill, R.M., & Omar, M. (2006). Another look at the single-vendor single-buyer integrated production-inventory problem. International Journal of Production Research, 44(4), 791–800.
Hsu, J., & Hsu, L. (2012). An integrated single-vendor single-buyer production-inventory model for items with imperfect quality and inspection errors. International Journal of Industrial Engineering Computations, 3(5), 703-720.
Hsu, L.F., & Hsu, J.T. (2014). Economic production quantity (EPQ) models under an imperfect production process with shortages backordered. International Journal of Systems Science, 47(4), 852-867.
Inderfurth*, K., Lindner, G., & Rachaniotis, N. P. (2005). Lot sizing in a production system with rework and product deterioration. International Journal of Production Research, 43(7), 1355-1374.
Jaber, M. Y., & Goyal, S. K. (2008). Coordinating a three-level supply chain with multiple suppliers, a vendor and multiple buyers. International Journal of Production Economics, 116(1), 95-103.
Jaggi, C.K., Tiwari, S., & Shafi, A. (2015). Effect of deterioration on two-warehouse inventory model with imperfect quality. Computers & Industrial Engineering, 88, 378–385.
Jawla, P., & Singh, S. (2016). Multi-item economic production quantity model for imperfect items with multiple production setups and rework under the effect of preservation technology and learning environment. International Journal of Industrial Engineering Computations, 7(4), 703-716.
Jolai, F., Tavakkoli-Moghaddam, R., Rabbani, M., & Sadoughian, M. R. (2006). An economic production lot size model with deteriorating items, stock-dependent demand, inflation, and partial backlogging. Applied Mathematics and Computation, 181(1), 380-389.
Kaur, M., Pareek, S., & Tripathi, R.P. (2016). Optimal ordering policy with non- increasing demand for time dependent deterioration under fixed life time production and permissible delay in payments. International Journal of Operations Research, 13(2), 035-046.
Khanna, A., Kishore, A., & Jaggi, C. (2017). Strategic production modeling for defective items with imperfect inspection process, rework, and sales return under two-level trade credit. International Journal of Industrial Engineering Computations, 8(1), 85-118.
Koh, S. G., Hwang, H., Sohn, K. I., & Ko, C. S. (2002). An optimal ordering and recovery policy for reusable items. Computers & Industrial Engineering, 43(1), 59-73.
Kumar, M., Chauhan, A., & Kumar, P. (2011). Economic production lot size model with stochastic demand and shortage partial backlogging rate under imperfect quality items. International Journal of Advanced Science and Technology (IJAST), 31(1), 1-22.
Kundu, S., & Chakrabarti, T. (2015). An integrated multi-stage supply chain inventory model with imperfect production process. International Journal of Industrial Engineering Computations, 6(4), 568-580.
Lee. J. H., & Moon, I. K, (2006). Coordinated inventory models with compensation policy in a three-level supply chain, Lect. Notes in Computer Science, 3982, 600–609.
Li, N., Chan, F.T.S., Chung, S.H., & Tai, A.H. (2015). A Modified EPQ model with deteriorating production system and deteriorating product. Proceedings of the world congress on mechanical, chemical, and material engineering (MCM 2015). Barcelona, Spain, July 20 - 21, Paper No. 249.
Mishra, V.K., Singh, L.S., & Kumar, R. (2013). An inventory model for deteriorating items with time-dependent demand and time-varying holding cost under partial backlogging. Journal of Industrial Engineering International, 9(1), 4.
Mukhopadhyay, A., & Goswami, A. (2015). Economic production quantity model for three type imperfect items with rework and learning in setup. An international journal of Optimization and control: Theories & Applications, 4(1), 57-65.
Munson, C.L., & Rosenblatt, M.J. (2001). Coordinating a three-level supply chain with quantity discount. IIE Transactions, 33(5), 371–384.
Omar, M., Sarker, R., & Othman, W. A. M. (2013). A just-in-time three-level integrated manufacturing system for linearly time-varying demand process. Applied Mathematical Modelling, 37(3), 1275-1281.
Pal, S., Mahapatra, G.S., & Samanta, G.P. (2015). A production model for deteriorating item with ramp type demand allowing inflation and shortages under fuzziness. Economic modelling, 46, 334-345.
Papachristos, S., & Konstantaras, I. (2006). Economic ordering quantity models for items with imperfect quality. International Journal of Production Economics, 100(1), 148-154.
Rastogi, M., Singh, S., Kushwah, P., & Tayal, S. (2017). Two warehouse inventory policy with price dependent demand and deterioration under partial backlogging. Decision Science Letters, 6(1), 11-22.
Rezaei, J., & Salimi, N. (2012). Economic order quantity and purchasing price for items with imperfect quality when inspection shifts from buyer to supplier. International Journal of Production Economics, 137(1), 11-18.
Salameh, M. K., & Jaber, M. Y. (2000). Economic production quantity model for items with imperfect quality. International journal of production economics, 64(1), 59-64.
Sarkar, B., Cárdenas-Barrón, L. E., Sarkar, M., & Singgih, M. L. (2014). An economic production quantity model with random defective rate, rework process and backorders for a single stage production system. Journal of Manufacturing Systems, 33(3), 423-435.
Schrady, D. A. (1967). A deterministic inventory model for reparable items. Naval Research Logistics Quarterly, 14(3), 391-398.
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.
Singh, S. R., Agarwal, A., & Rani, S. (2015). Mathematical Production Inventory model for deteriorating items with time dependent demand rate under the effect of inflation and shortage. International Journal of Computer & mathematical Science, 4, 138-148.
Singh, S., Khurana, D., & Tayal, S. (2016). An economic order quantity model for deteriorating products having stock dependent demand with trade credit period and preservation technology. Uncertain Supply Chain Management, 4(1), 29-42.
Tai, A. H. (2013). Economic production quantity models for deteriorating/imperfect products and service with rework. Computers & Industrial Engineering, 66(4), 879-88.
Taleizadeh, A.A., Noori-daryan, M., & Tavakkoli-Moghaddam, R. (2015a). Pricing and ordering decisions in a supply chain with imperfect quality items and inspection under buyback of defective items. International Journal of Production Research, 53(15), 4553–4582.
Taleizadeh, A.A., Noori-daryan, M., & Cárdenas-Barrón, L.E. (2015b). Joint optimization of price, replenishment frequency, replenishment cycle and production rate in vendor managed inventory system with deteriorating items. International Journal of Production Economics, 159, 285–295.
Taleizadeh, A., Kalantari, S.S., & Cardenas-Barron, L.E. (2015c). Determining optimal price, replenishment lot size and number of shipments for an EPQ model with rework and multiple shipments. Journal of Industrial and Management Optimization, 11(4),1059-1071.
Tavakoli, E., & Mirzaee, M. (2014). Coordination of a three-level supply chain under disruption using profit sharing and return policy contracts. International Journal of Industrial Engineering Computations, 5(1), 139-150.
Ullah, M., & Kang, C.W. (2014). Effect of Rework, Rejects and Inspection on Lot Size with Work-in-process Inventory. International Journal of Production Research, 52(8), 2448–2460.
Valentini, G., & Zavanella, L. (2003).The consignment stock of inventories: industrial case study and performance analysis. International Journal of Production Economics, 81, 215–224.
Wagner, H.M., & Whitin, T.M. (1958). Dynamic version of economic lot size model. Management Science, 5(1), 89-96.
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(1), 62–67.
Yang, M.F., Lo, M.C., & Lu, T.P. (2013). A vendor-buyers integrated inventory model involving quality improvement investment in a supply chain. Journal of Marine Science and Technology, 21(5), 586-593.
Yassine, A., Maddah, B., & Salameh, M. (2012). Disaggregation and consolidation of imperfect quality shipments in an extended EPQ model. International Journal of Production Economics, 135(1), 345–52.
Yoo, S. H., Kim, D., & Park, M. S. (2009). Economic production quantity model with imperfect-quality items, two-way imperfect inspection and sales return. International Journal of Production Economics, 121(1), 255-265.
Zanoni, S., & Grubbstrom*, R. W. (2004). A note on an industrial strategy for stock management in supply chains: modelling and performance evaluation. International Journal of Production Research, 42(20), 4421-4426.