How to cite this paper
Chiu, Y., Chen, Y., Chiu, V & Chiu, S. (2019). Joint effects of stochastic machine failure, backorder of permissible shortage, rework, and scrap on stock replenishing decision.International Journal of Industrial Engineering Computations , 10(2), 263-280.
Refrences
Abilash, N., & Sivapragash, M. (2016). Optimizing the delamination failure in bamboo fiber reinforced polyester composite. Journal of King Saud University - Engineering Sciences, 28(1), 92-102.
Balaji, M., Velmurugan, V., Prapa, M., & Mythily, V. (2016). A fuzzy approach for modeling and design of agile supply chains using interpretive structural modeling. Jordan Journal of Mechanical and Industrial Engineering, 10(1), 67-74.
Bielecki, T., & Kumar, P.R. (1988). Optimality of zero-inventory policies for unreliable production facility. Operations Research, 36, 532-541.
Boone, T., Ganeshan, R., Guo, Y., & Ord, J.K. (2000). The impact of imperfect processes on production run times. Decision Sciences, 31(4), 773-785.
Buckova, M., Krajcovic, M., & Jerman, B. (2017). Impact of digital factory tools on designing of warehouses. Journal of Applied Engineering Science, 15(2), 173-180.
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.
Chiu, S.W., Ting, C.-K., & Chiu, Y-S.P. (2007). Optimal production lot sizing with rework, scrap rate, and service level constraint. Mathematical and Computer Modelling, 46(3-4), 535-549.
Chiu, S.W. (2010). Robust planning in optimization for production system subject to random machine breakdown and failure in rework. Computers & Operations Research, 37(5), 899-908.
Chiu, S.W., Liu, C.-J., Chen, Y.-R., & Chiu, Y.-S.P. (2017a) Finite production rate model with backlogging, service level constraint, rework, and random breakdown. International Journal for Engineering Modelling, 30(1-4), 63-80.
Chiu, Y-S.P., Chiang, K-W., Chiu, S.W., & Song, M-S. (2016). Simultaneous determination of production and shipment decisions for a multi-product inventory system with a rework process. Advances in Production Engineering & Management, 11(2), 141-151.
Chiu, Y-S.P., Liu, C.-J., & Hwang, M.-H. (2017b). Optimal batch size considering partial outsourcing plan and rework. Jordan Journal of Mechanical and Industrial Engineering, 11(3), 195-200.
Eroglu, A., & Ozdemir, G. (2007). An economic order quantity model with defective items and shortages. International Journal of Production Economics, 106(2), 544-549.
Fergany, H.A. (2016). Probabilistic multi-item inventory model with varying mixture shortage cost under restrictions. SpringerPlus, 5, No.1351.
Jaggi, C.K., Khanna, A., & Nidhi. (2016). Effects of inflation and time value of money on an inventory system with deteriorating items and partially backlogged shortages. International Journal of Industrial Engineering Computations, 7(2), 267-282.
Jawla, P., & Singh, S.R. (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.
Jha, J.K., & Shanker, K. (2013). Single-vendor multi-buyer integrated production-inventory model with controllable lead time and service level constraints. Applied Mathematical Modelling, 37(4), 1753-1767.
Jindal, P., & Solanki, A. (2016). Integrated supply chain inventory model with quality improvement involving controllable lead time and backorder price discount. International Journal of Industrial Engineering Computations, 7(3), 463-480.
Giri, B.C., & Dohi, T. (2005). Exact formulation of stochastic EMQ model for an unreliable production system. Journal of the Operational Research Society, 56(5), 563-575.
Groenevelt, H., Pintelon, L., & Seidmann, A. (1992). Production lot sizing with machine breakdowns. Management Sciences, 38, 104-123.
Khanna, A., Kishore, A., & Jaggi, C.K. (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.
Luong, H.T., & Karim, R. (2017). An integrated production inventory model of deteriorating items subject to random machine breakdown with a stochastic repair time. International Journal of Industrial Engineering Computations, 8(2), 217-236.
Mičieta, B., Herčko, J., Botka, M., & Zrnić, N. (2016). Concept of intelligent logistic for automotive industry. Journal of Applied Engineering Science, 14(2), 233-238.
Oblak, L., Kuzman, M.K., & Grošelj, P. (2017). A fuzzy logic-based model for analysis and evaluation of services in a Manufacturing company. Journal of Applied Engineering Science, 15(3), 258-271.
Pasandideh, S.H.R., Niaki, S.T.A., & Sharafzadeh, S. (2013). Optimizing a bi-objective multi-product EPQ model with defective items, rework and limited orders: NSGA-II and MOPSO algorithms. Journal of Manufacturing Systems, 32(4), 764–770.
Rabinowitz, G., Mehrez, A., Ching-Wu Chu, & Patuwo, B.E. (1995). A partial backorder control for continuous review (r, Q) inventory system with Poisson demand and constant lead time. Computers and Operations Research, 22(7), 689-700.
Rakyta, M., Fusko, M., Herčko, J., Závodská, L., & Zrnić, N. (2016). Proactive approach to smart maintenance and logistics as a auxiliary and service processes in a company. Journal of Applied Engineering Science, 14(4), 433-442.
Ramani, S., & Kutty, K.V.K. (1985). Management of multi-item, multi-group inventories with multiple criteria under service level constraints. Engineering Costs and Production Economics, 9(1-3), 59-64.
Rivera-Gómez, H., Gharbi, A., & Kenné, J.P. (2013). Production and quality control policies for deteriorating manufacturing system. International Journal of Production Research, 51(11), 3443-3462.
Rosenblatt, M.J., & Lee, H.L. (1986). Economic production cycles with imperfect production processes. IIE Transactions, 18, 48-55.
Qu, S., & Ji, Y. (2016) The worst-case weighted multi-objective game with an application to supply chain competitions. PLoS ONE, 11(1), art. no. e0147341.
Salemi, H. (2016). A hybrid algorithm for stochastic single-source capacitated facility location problem with service level requirements. International Journal of Industrial Engineering Computations, 7(2), 295-308.
Taft, E.W. (1918). The most economical production lot. Iron Age, 101, 1410–1412.
Teunter, R.H., & Flapper, S.D.P. (2003). Lot-sizing for a single-stage single-product production system with rework of perishable production defectives. OR Spectrum, 25(1), 85-96.
van Rhyn, P., & Hancke, G.P. (2017). Simplified performance estimation of ISM-band, OFDM-based WSNs according to the sensitivity/SINAD parameters. Journal of Applied Research and Technology, 15(1), 1-13.
Zargar, A.M. (1995). Effect of rework strategies on cycle time. Computers and Industrial Engineering, 29(1-4), 239-243.
Zhang, D., Zhang, Y., & Yu, M. (2016). A machining process oriented modeling approach for reliability optimization of failure-prone manufacturing systems. Journal of Engineering Research, 4(3), 128-143.
Balaji, M., Velmurugan, V., Prapa, M., & Mythily, V. (2016). A fuzzy approach for modeling and design of agile supply chains using interpretive structural modeling. Jordan Journal of Mechanical and Industrial Engineering, 10(1), 67-74.
Bielecki, T., & Kumar, P.R. (1988). Optimality of zero-inventory policies for unreliable production facility. Operations Research, 36, 532-541.
Boone, T., Ganeshan, R., Guo, Y., & Ord, J.K. (2000). The impact of imperfect processes on production run times. Decision Sciences, 31(4), 773-785.
Buckova, M., Krajcovic, M., & Jerman, B. (2017). Impact of digital factory tools on designing of warehouses. Journal of Applied Engineering Science, 15(2), 173-180.
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.
Chiu, S.W., Ting, C.-K., & Chiu, Y-S.P. (2007). Optimal production lot sizing with rework, scrap rate, and service level constraint. Mathematical and Computer Modelling, 46(3-4), 535-549.
Chiu, S.W. (2010). Robust planning in optimization for production system subject to random machine breakdown and failure in rework. Computers & Operations Research, 37(5), 899-908.
Chiu, S.W., Liu, C.-J., Chen, Y.-R., & Chiu, Y.-S.P. (2017a) Finite production rate model with backlogging, service level constraint, rework, and random breakdown. International Journal for Engineering Modelling, 30(1-4), 63-80.
Chiu, Y-S.P., Chiang, K-W., Chiu, S.W., & Song, M-S. (2016). Simultaneous determination of production and shipment decisions for a multi-product inventory system with a rework process. Advances in Production Engineering & Management, 11(2), 141-151.
Chiu, Y-S.P., Liu, C.-J., & Hwang, M.-H. (2017b). Optimal batch size considering partial outsourcing plan and rework. Jordan Journal of Mechanical and Industrial Engineering, 11(3), 195-200.
Eroglu, A., & Ozdemir, G. (2007). An economic order quantity model with defective items and shortages. International Journal of Production Economics, 106(2), 544-549.
Fergany, H.A. (2016). Probabilistic multi-item inventory model with varying mixture shortage cost under restrictions. SpringerPlus, 5, No.1351.
Jaggi, C.K., Khanna, A., & Nidhi. (2016). Effects of inflation and time value of money on an inventory system with deteriorating items and partially backlogged shortages. International Journal of Industrial Engineering Computations, 7(2), 267-282.
Jawla, P., & Singh, S.R. (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.
Jha, J.K., & Shanker, K. (2013). Single-vendor multi-buyer integrated production-inventory model with controllable lead time and service level constraints. Applied Mathematical Modelling, 37(4), 1753-1767.
Jindal, P., & Solanki, A. (2016). Integrated supply chain inventory model with quality improvement involving controllable lead time and backorder price discount. International Journal of Industrial Engineering Computations, 7(3), 463-480.
Giri, B.C., & Dohi, T. (2005). Exact formulation of stochastic EMQ model for an unreliable production system. Journal of the Operational Research Society, 56(5), 563-575.
Groenevelt, H., Pintelon, L., & Seidmann, A. (1992). Production lot sizing with machine breakdowns. Management Sciences, 38, 104-123.
Khanna, A., Kishore, A., & Jaggi, C.K. (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.
Luong, H.T., & Karim, R. (2017). An integrated production inventory model of deteriorating items subject to random machine breakdown with a stochastic repair time. International Journal of Industrial Engineering Computations, 8(2), 217-236.
Mičieta, B., Herčko, J., Botka, M., & Zrnić, N. (2016). Concept of intelligent logistic for automotive industry. Journal of Applied Engineering Science, 14(2), 233-238.
Oblak, L., Kuzman, M.K., & Grošelj, P. (2017). A fuzzy logic-based model for analysis and evaluation of services in a Manufacturing company. Journal of Applied Engineering Science, 15(3), 258-271.
Pasandideh, S.H.R., Niaki, S.T.A., & Sharafzadeh, S. (2013). Optimizing a bi-objective multi-product EPQ model with defective items, rework and limited orders: NSGA-II and MOPSO algorithms. Journal of Manufacturing Systems, 32(4), 764–770.
Rabinowitz, G., Mehrez, A., Ching-Wu Chu, & Patuwo, B.E. (1995). A partial backorder control for continuous review (r, Q) inventory system with Poisson demand and constant lead time. Computers and Operations Research, 22(7), 689-700.
Rakyta, M., Fusko, M., Herčko, J., Závodská, L., & Zrnić, N. (2016). Proactive approach to smart maintenance and logistics as a auxiliary and service processes in a company. Journal of Applied Engineering Science, 14(4), 433-442.
Ramani, S., & Kutty, K.V.K. (1985). Management of multi-item, multi-group inventories with multiple criteria under service level constraints. Engineering Costs and Production Economics, 9(1-3), 59-64.
Rivera-Gómez, H., Gharbi, A., & Kenné, J.P. (2013). Production and quality control policies for deteriorating manufacturing system. International Journal of Production Research, 51(11), 3443-3462.
Rosenblatt, M.J., & Lee, H.L. (1986). Economic production cycles with imperfect production processes. IIE Transactions, 18, 48-55.
Qu, S., & Ji, Y. (2016) The worst-case weighted multi-objective game with an application to supply chain competitions. PLoS ONE, 11(1), art. no. e0147341.
Salemi, H. (2016). A hybrid algorithm for stochastic single-source capacitated facility location problem with service level requirements. International Journal of Industrial Engineering Computations, 7(2), 295-308.
Taft, E.W. (1918). The most economical production lot. Iron Age, 101, 1410–1412.
Teunter, R.H., & Flapper, S.D.P. (2003). Lot-sizing for a single-stage single-product production system with rework of perishable production defectives. OR Spectrum, 25(1), 85-96.
van Rhyn, P., & Hancke, G.P. (2017). Simplified performance estimation of ISM-band, OFDM-based WSNs according to the sensitivity/SINAD parameters. Journal of Applied Research and Technology, 15(1), 1-13.
Zargar, A.M. (1995). Effect of rework strategies on cycle time. Computers and Industrial Engineering, 29(1-4), 239-243.
Zhang, D., Zhang, Y., & Yu, M. (2016). A machining process oriented modeling approach for reliability optimization of failure-prone manufacturing systems. Journal of Engineering Research, 4(3), 128-143.