How to cite this paper
Singh, S & Prasher, L. (2014). A production inventory model with flexible manufacturing, random machine breakdown and stochastic repair time.International Journal of Industrial Engineering Computations , 5(4), 575-588.
Refrences
Chakraborty, T., Giri, B. C., & Chaudhuri, K. S. (2008). Production lot sizing with process deterioration and machine breakdown. European Journal of Operational Research, 185(2), 606-618.
Cheung, K. L., & Hausman, W. H. (1997). Joint determination of preventive maintenance and safety stocks in an unreliable production environment. Naval Research Logistics (NRL), 44(3), 257-272.
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.
Dem, H., & Singh, S. R. (2012, January). Production scheduling for damageable items with demand and cost flexibility using genetic algorithm. In Proceedings of the International Conference on Soft Computing for Problem Solving (SocProS 2011) December 20-22, 2011 (pp. 747-759). Springer India.
Dem, H., & Singh, S. R. (2013). A production model for ameliorating items with quality consideration. International Journal of Operational Research, 17(2), 183-198.
El-Ferik, S. (2008). Economic production lot-sizing for an unreliable machine under imperfect age-based maintenance policy. European Journal of Operational Research, 186(1), 150-163.
Giri, B. C., & Chaudhuri, K. S. (1998). Deterministic models of perishable inventory with stock-dependent demand rate and nonlinear holding cost. European Journal of Operational Research, 105(3), 467-474.
Giri, B. C., Yun, W. Y., & Dohi, T. (2005). Optimal design of unreliable production–inventory systems with variable production rate. European Journal of Operational Research, 162(2), 372-386.
Goyal, S. K., Singh, S. R., & Dem, H. (2013). Production policy for ameliorating/deteriorating items with ramp type demand. International Journal of Procurement Management, 6(4), 444-465.
Groenevelt, H., Pintelon, L., & Seidmann, A. (1992). Production lot sizing with machine breakdowns. Management Science, 38(1), 104-123.
Groenevelt, H., Pintelon, L., & Seidmann, A. (1992). Production batching with machine breakdowns and safety stocks. Operations Research, 40(5), 959-971.
Gupta, R., & Vrat, P. (1986). Inventory model for stock-dependent consumption rate. Opsearch, 23(1), 19-24.
Konstantaras, I., & Skouri, K. (2010). Lot sizing for a single product recovery system with variable setup numbers. European Journal of Operational Research, 203(2), 326-335.
Levin, R. I., Mclaughlin, C. P., Lamone, R. P., & Kottas, J. F. (1972). Production, Operations Management: Contemporary Policy for Managing Operation System. NewYork: McGraw-Hill.
Leung, K. N. F. (2007). A generalized geometric-programming solution to “An economic production quantity model with flexibility and reliability considerations”. European Journal of Operational Research, 176(1), 240-251.
Liao, G. L., Chen, Y. H., & Sheu, S. H. (2009). Optimal economic production quantity policy for imperfect process with imperfect repair and maintenance.European Journal of Operational Research, 195(2), 348-357.
Lin, G.C., & Gong, D.C. (2006). On a production inventory system of deteriorating items subject to random machine breakdowns with a fixed repair time. Mathematical Computational Modeling, 43(7), 920-932.
Mandal, B.N., & Phaujdar, S. (1989). An inventory model for deteriorating items and stock dependent consumption rate. Journal Operational Research Society, 40, 483–488.
Peterson, R., & Silver, E. A. (1979). Decision systems for inventory management and production planning (pp. 799-799). New York: Wiley.
Sana, S., Goyal, S.K., & Chaudhuri K.S. (2006). An imperfect production process in a volume flexible inventory model. International Journal of Production Economics, 105,548-559.
Schweitzer, P. J., Seidmann, A. (1991). Optimizing, processing rate for flexible manufacturing systems. Management Science, 37, 454-466.
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., & Saxena, N. (2012). An optimal returned policy for a reverse logistics inventory model with backorders. Advances in Decision Sciences.
Singh, S. R., & Jain, R. (2009). On reserve money for an EOQ model in an inflationary environment under supplier credits. Opsearch, 46(3), 303-320.
Singh, S. R., & Singh, C. (2010). Supply chain model with stochastic lead time under imprecise partially backlogging and fuzzy ramp-type demand for expiring items. International Journal of Operational Research, 8(4), 511-522.
Teng, J. T., & Chang, C. T. (2005). Economic production quantity models for deteriorating items with price-and stock-dependent demand. Computers & Operations Research, 32(2), 297-308.
Wang, C. H. (2004). The impact of a free-repair warranty policy on EMQ model for imperfect production systems. Computers & Operations Research, 31(12), 2021-2035.
Widyadana, G. A., & Wee, H. M. (2011). Optimal deteriorating items production inventory models with random machine breakdown and stochastic repair time. Applied Mathematical Modelling, 35(7), 3495-3508.
Yadav, D., Singh, S. R., & Kumari, R. (2012). Inventory model of deteriorating items with two-warehouse and stock dependent demand using genetic algorithm in fuzzy environment. Yugoslav Journal of Operations Research ISSN: 0354-0243 EISSN: 2334-6043, 22(1).
Cheung, K. L., & Hausman, W. H. (1997). Joint determination of preventive maintenance and safety stocks in an unreliable production environment. Naval Research Logistics (NRL), 44(3), 257-272.
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.
Dem, H., & Singh, S. R. (2012, January). Production scheduling for damageable items with demand and cost flexibility using genetic algorithm. In Proceedings of the International Conference on Soft Computing for Problem Solving (SocProS 2011) December 20-22, 2011 (pp. 747-759). Springer India.
Dem, H., & Singh, S. R. (2013). A production model for ameliorating items with quality consideration. International Journal of Operational Research, 17(2), 183-198.
El-Ferik, S. (2008). Economic production lot-sizing for an unreliable machine under imperfect age-based maintenance policy. European Journal of Operational Research, 186(1), 150-163.
Giri, B. C., & Chaudhuri, K. S. (1998). Deterministic models of perishable inventory with stock-dependent demand rate and nonlinear holding cost. European Journal of Operational Research, 105(3), 467-474.
Giri, B. C., Yun, W. Y., & Dohi, T. (2005). Optimal design of unreliable production–inventory systems with variable production rate. European Journal of Operational Research, 162(2), 372-386.
Goyal, S. K., Singh, S. R., & Dem, H. (2013). Production policy for ameliorating/deteriorating items with ramp type demand. International Journal of Procurement Management, 6(4), 444-465.
Groenevelt, H., Pintelon, L., & Seidmann, A. (1992). Production lot sizing with machine breakdowns. Management Science, 38(1), 104-123.
Groenevelt, H., Pintelon, L., & Seidmann, A. (1992). Production batching with machine breakdowns and safety stocks. Operations Research, 40(5), 959-971.
Gupta, R., & Vrat, P. (1986). Inventory model for stock-dependent consumption rate. Opsearch, 23(1), 19-24.
Konstantaras, I., & Skouri, K. (2010). Lot sizing for a single product recovery system with variable setup numbers. European Journal of Operational Research, 203(2), 326-335.
Levin, R. I., Mclaughlin, C. P., Lamone, R. P., & Kottas, J. F. (1972). Production, Operations Management: Contemporary Policy for Managing Operation System. NewYork: McGraw-Hill.
Leung, K. N. F. (2007). A generalized geometric-programming solution to “An economic production quantity model with flexibility and reliability considerations”. European Journal of Operational Research, 176(1), 240-251.
Liao, G. L., Chen, Y. H., & Sheu, S. H. (2009). Optimal economic production quantity policy for imperfect process with imperfect repair and maintenance.European Journal of Operational Research, 195(2), 348-357.
Lin, G.C., & Gong, D.C. (2006). On a production inventory system of deteriorating items subject to random machine breakdowns with a fixed repair time. Mathematical Computational Modeling, 43(7), 920-932.
Mandal, B.N., & Phaujdar, S. (1989). An inventory model for deteriorating items and stock dependent consumption rate. Journal Operational Research Society, 40, 483–488.
Peterson, R., & Silver, E. A. (1979). Decision systems for inventory management and production planning (pp. 799-799). New York: Wiley.
Sana, S., Goyal, S.K., & Chaudhuri K.S. (2006). An imperfect production process in a volume flexible inventory model. International Journal of Production Economics, 105,548-559.
Schweitzer, P. J., Seidmann, A. (1991). Optimizing, processing rate for flexible manufacturing systems. Management Science, 37, 454-466.
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., & Saxena, N. (2012). An optimal returned policy for a reverse logistics inventory model with backorders. Advances in Decision Sciences.
Singh, S. R., & Jain, R. (2009). On reserve money for an EOQ model in an inflationary environment under supplier credits. Opsearch, 46(3), 303-320.
Singh, S. R., & Singh, C. (2010). Supply chain model with stochastic lead time under imprecise partially backlogging and fuzzy ramp-type demand for expiring items. International Journal of Operational Research, 8(4), 511-522.
Teng, J. T., & Chang, C. T. (2005). Economic production quantity models for deteriorating items with price-and stock-dependent demand. Computers & Operations Research, 32(2), 297-308.
Wang, C. H. (2004). The impact of a free-repair warranty policy on EMQ model for imperfect production systems. Computers & Operations Research, 31(12), 2021-2035.
Widyadana, G. A., & Wee, H. M. (2011). Optimal deteriorating items production inventory models with random machine breakdown and stochastic repair time. Applied Mathematical Modelling, 35(7), 3495-3508.
Yadav, D., Singh, S. R., & Kumari, R. (2012). Inventory model of deteriorating items with two-warehouse and stock dependent demand using genetic algorithm in fuzzy environment. Yugoslav Journal of Operations Research ISSN: 0354-0243 EISSN: 2334-6043, 22(1).