How to cite this paper
Chiu, Y., Lin, J., Wang, Y & Chen, H. (2022). Collective impact of scrap, random breakdown, overtime and discontinuous issuing on batch production planning in a supply-chain environment.Uncertain Supply Chain Management, 10(1), 181-196.
Refrences
Abdul Halim, M., Paul, A., Mahmoud, M., Alshahrani, B., Alazzawi, A.Y.M., Ismail, G.M. (2021). An overtime production inventory model for deteriorating items with nonlinear price and stock dependent demand. Alexandria Engineering Journal, 60(3), 2779-2786.
Adazabra, A.N., Viruthagiri, G., Shanmugam, N. (2018). Manufacture of lightweight clay bricks with improved thermal insulation properties via the incorporation of spent shea waste. Journal of Applied Research and Technology, 16(3), 186-203.
Aouam, T., Kumar, K. (2019). On the effect of overtime and subcontracting on supply chain safety stocks. Omega, 89, 1-20.
Assia, S., Ikram, E.A., Abdellah, E.B., Moumen, D., Ahmed, E.B. (2020). A genetic algorithm and B&B algorithm for integrated production scheduling, preventive and corrective maintenance to save energy. Management and Production Engineering Review, 11(4), 138-148.
Brahmi, A., Hadj-Alouane, A.B., Sboui, S. (2020). Dynamic and reactive optimization of physical and financial flows in the supply chain. International Journal of Industrial Engineering Computations, 11(1), 83-106.
Campbell, G.M. (2017). Time-staged overtime staffing for services with updated forecasts and availabilities. Decision Sciences, 48(4), 691-722.
Chiu, S.W., Chen, H-C., Lin, H-D. (2019). Optimal common manufacturing cycle length for a multi-product inventory system with rework and an outside contractor. International Journal for Engineering Modelling, 32(1), 1-16.
Chiu, Y-S.P., Chiu, V., Yeh, T-M., Wu, H-Y. (2020). Incorporating outsourcing strategy and quality assurance into a multiproduct manufacturer–retailer coordination replenishing decision. Mathematics, 8(12), Art. No. 02212.
Chiu, S.W., Chiu, T., Chiu, Y-S.P., Lin, H-D. (2021). Economic manufacturing quantity model with machine failure, overtime, and rework/disposal of nonconforming items. Management and Production Engineering Review, 12(1), 3-16.
Demi̇Rel, T., Taskan, E. (2012). Multi-criteria evaluation of shifts and overtime strategies using choquet integral. Lecture Notes in Engineering Computer Sciences, 2198, 773-778.
Fontinha, R., Easton, S., Van Laar, D. (2019). Overtime and quality of working life in academics and nonacademics: The role of perceived work-life balance. International Journal of Stress Management, 26(2), 173-183.
Frank, M., Ostermeier, M., Holzapfel, A., Hübner, A., Kuhn, H. (2021). Optimizing routing and delivery patterns with multi-compartment vehicles. European Journal of Operational Research, 293(2), 495-510.
Jeunet, J., Bou Orm, M. (2020). Optimizing temporary work and overtime in the Time Cost Quality Trade-off Problem. European Journal of Operational Research, 284, 743-761.
Johansson, L., Sonntag, D.R., Marklund, J., Kiesmüller, G.P. (2020). Controlling distribution inventory systems with shipment consolidation and compound Poisson demand. European Journal of Operational Research, 280(1), 90-101.
Gera, A.E. (2021). The Reliability of a system involving change points. International Journal of Mathematical, Engineering and Management Sciences, 6(1), 296-308.
Giri, B.C., Sharma, S. (2017). Integrated model for an imperfect production-inventory system with a generalised shipment policy, errors in quality inspection and ordering cost reduction. International Journal of Systems Science: Operations & Logistics, 4(3), 260-274.
Gunasekaran, A., Goyal, S.K., Subash Babu, A., Ramaswamy, N. (1991). Effect of machine failures in a multi-stage multi-facility and multi-product production-inventory system. International Journal of Systems Science, 22(2), 273-291.
Hill, R.M. (1997). The single-vendor single-buyer integrated production-inventory model with a generalised policy. European Journal of Operational Research, 97(3), 493-499.
Keyvanshokooh, E., Shi, C., & van Oyen, M.P. (2021). Online advance scheduling with overtime: A primal-dual approach. Manufacturing and Service Operations Management, 23(1), 246-266.
Klašnja, N., Sremčev, N., Vukelić, D., Simeunović, N., & Lazarević, M. (2019). Optimization of cable harness assembly systems based on Lean concept application. International Journal of Industrial Engineering and Management, 10 (1), 115-123.
Kreng, V.B., & Chen, F.T. (2007). Three echelon buyer - Supplier delivery policy - A supply chain collaboration approach. Production Planning & Control, 18(4), 338-349.
Makis, V., & Fung, J. (1998). An EMQ model with inspections and random machine failures. Journal of the Operational Research Society, 49(1), 66-76.
Martins, L.D.C., Gonzalez-Neira, E.M., Hatami, S., Juan, A.A., Montoya-Torres, J.R. (2021). Combining production and distribution in supply chains: The hybrid flow-shop vehicle routing problem. Computers and Industrial Engineering, 159, Art. No. 107486.
Mumford, K., Dowrick, S. (1994). Wage bargaining with endogenous profits, overtime working and heterogeneous labor. The Review of Economics and Statistics, 76(2), 329-336.
Nogueira, T.H., Bettoni, A.B., Mendes, G.T.D.O., dos Santos, A.G., Ravetti, M.G. (2020). Problem on the integration between production and delivery with parallel batching machines of generic job sizes and processing times. Computers and Industrial Engineering, 146, Art. No. 106573
Ongcunaruk, W., Ongkunaruk, P., Janssens, G.K. (2021). Genetic algorithm for a delivery problem with mixed time windows. Computers and Industrial Engineering, 159, Art. No. 107478.
Özdamar, L., Birbil, Ş.I., Portmann, M.C. (2002). Technical note: New results for the capacitated lot sizing problem with overtime decisions and setup times. Production Planning & Control, 13(1), 2-10.
Pal, B., Sana, S.S., Chaudhuri, K. (2012). A three layer multi-item production–inventory model for multiple suppliers and retailers. Economic Modelling, 29(6), 2704-2710.
Ravulakollu, A.K., Urciuoli, L., Rukanova, B., Tan, Y-H., Hakvoort, R.A. (2018). Risk based framework for assessing resilience in a complex multi-actor supply chain domain. Supply Chain Forum: An International Journal, 19(4), 266-281.
Salehi Amiri, S.A.H., Zahedi, A., Kazemi, M., Soroor, J., Hajiaghaei-Keshteli, M. (2020). Determination of the optimal sales level of perishable goods in a two-echelon supply chain network. Computers and Industrial Engineering, 139, Art. No. 106156
Soriano, J., Jalao, E.R., Martinez, I.A. (2020). Integrated employee scheduling with known employee demand, including breaks, overtime, and employee preferences. Journal of Industrial Engineering and Management, 13(3), 451-463.
Tolooie, A., Maity, M., Sinha, A.K. (2020). A two-stage stochastic mixed-integer program for reliable supply chain network design under uncertain disruptions and demand. Computers and Industrial Engineering, 148, Art. No. 106722
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.
Villacís, S.A., Burneo. P.S. (2020). UAVs’ efficient assembly: Lean Manufacturing implementation in an UAVs’ Assembly Company. International Journal of Industrial Engineering and Management, 11(4), 237-252.
Wee, H.M., Yu, J., Chen, M.C. (2007). Optimal inventory model for items with imperfect quality and shortage back ordering. Omega, 35, 7-11.
Adazabra, A.N., Viruthagiri, G., Shanmugam, N. (2018). Manufacture of lightweight clay bricks with improved thermal insulation properties via the incorporation of spent shea waste. Journal of Applied Research and Technology, 16(3), 186-203.
Aouam, T., Kumar, K. (2019). On the effect of overtime and subcontracting on supply chain safety stocks. Omega, 89, 1-20.
Assia, S., Ikram, E.A., Abdellah, E.B., Moumen, D., Ahmed, E.B. (2020). A genetic algorithm and B&B algorithm for integrated production scheduling, preventive and corrective maintenance to save energy. Management and Production Engineering Review, 11(4), 138-148.
Brahmi, A., Hadj-Alouane, A.B., Sboui, S. (2020). Dynamic and reactive optimization of physical and financial flows in the supply chain. International Journal of Industrial Engineering Computations, 11(1), 83-106.
Campbell, G.M. (2017). Time-staged overtime staffing for services with updated forecasts and availabilities. Decision Sciences, 48(4), 691-722.
Chiu, S.W., Chen, H-C., Lin, H-D. (2019). Optimal common manufacturing cycle length for a multi-product inventory system with rework and an outside contractor. International Journal for Engineering Modelling, 32(1), 1-16.
Chiu, Y-S.P., Chiu, V., Yeh, T-M., Wu, H-Y. (2020). Incorporating outsourcing strategy and quality assurance into a multiproduct manufacturer–retailer coordination replenishing decision. Mathematics, 8(12), Art. No. 02212.
Chiu, S.W., Chiu, T., Chiu, Y-S.P., Lin, H-D. (2021). Economic manufacturing quantity model with machine failure, overtime, and rework/disposal of nonconforming items. Management and Production Engineering Review, 12(1), 3-16.
Demi̇Rel, T., Taskan, E. (2012). Multi-criteria evaluation of shifts and overtime strategies using choquet integral. Lecture Notes in Engineering Computer Sciences, 2198, 773-778.
Fontinha, R., Easton, S., Van Laar, D. (2019). Overtime and quality of working life in academics and nonacademics: The role of perceived work-life balance. International Journal of Stress Management, 26(2), 173-183.
Frank, M., Ostermeier, M., Holzapfel, A., Hübner, A., Kuhn, H. (2021). Optimizing routing and delivery patterns with multi-compartment vehicles. European Journal of Operational Research, 293(2), 495-510.
Jeunet, J., Bou Orm, M. (2020). Optimizing temporary work and overtime in the Time Cost Quality Trade-off Problem. European Journal of Operational Research, 284, 743-761.
Johansson, L., Sonntag, D.R., Marklund, J., Kiesmüller, G.P. (2020). Controlling distribution inventory systems with shipment consolidation and compound Poisson demand. European Journal of Operational Research, 280(1), 90-101.
Gera, A.E. (2021). The Reliability of a system involving change points. International Journal of Mathematical, Engineering and Management Sciences, 6(1), 296-308.
Giri, B.C., Sharma, S. (2017). Integrated model for an imperfect production-inventory system with a generalised shipment policy, errors in quality inspection and ordering cost reduction. International Journal of Systems Science: Operations & Logistics, 4(3), 260-274.
Gunasekaran, A., Goyal, S.K., Subash Babu, A., Ramaswamy, N. (1991). Effect of machine failures in a multi-stage multi-facility and multi-product production-inventory system. International Journal of Systems Science, 22(2), 273-291.
Hill, R.M. (1997). The single-vendor single-buyer integrated production-inventory model with a generalised policy. European Journal of Operational Research, 97(3), 493-499.
Keyvanshokooh, E., Shi, C., & van Oyen, M.P. (2021). Online advance scheduling with overtime: A primal-dual approach. Manufacturing and Service Operations Management, 23(1), 246-266.
Klašnja, N., Sremčev, N., Vukelić, D., Simeunović, N., & Lazarević, M. (2019). Optimization of cable harness assembly systems based on Lean concept application. International Journal of Industrial Engineering and Management, 10 (1), 115-123.
Kreng, V.B., & Chen, F.T. (2007). Three echelon buyer - Supplier delivery policy - A supply chain collaboration approach. Production Planning & Control, 18(4), 338-349.
Makis, V., & Fung, J. (1998). An EMQ model with inspections and random machine failures. Journal of the Operational Research Society, 49(1), 66-76.
Martins, L.D.C., Gonzalez-Neira, E.M., Hatami, S., Juan, A.A., Montoya-Torres, J.R. (2021). Combining production and distribution in supply chains: The hybrid flow-shop vehicle routing problem. Computers and Industrial Engineering, 159, Art. No. 107486.
Mumford, K., Dowrick, S. (1994). Wage bargaining with endogenous profits, overtime working and heterogeneous labor. The Review of Economics and Statistics, 76(2), 329-336.
Nogueira, T.H., Bettoni, A.B., Mendes, G.T.D.O., dos Santos, A.G., Ravetti, M.G. (2020). Problem on the integration between production and delivery with parallel batching machines of generic job sizes and processing times. Computers and Industrial Engineering, 146, Art. No. 106573
Ongcunaruk, W., Ongkunaruk, P., Janssens, G.K. (2021). Genetic algorithm for a delivery problem with mixed time windows. Computers and Industrial Engineering, 159, Art. No. 107478.
Özdamar, L., Birbil, Ş.I., Portmann, M.C. (2002). Technical note: New results for the capacitated lot sizing problem with overtime decisions and setup times. Production Planning & Control, 13(1), 2-10.
Pal, B., Sana, S.S., Chaudhuri, K. (2012). A three layer multi-item production–inventory model for multiple suppliers and retailers. Economic Modelling, 29(6), 2704-2710.
Ravulakollu, A.K., Urciuoli, L., Rukanova, B., Tan, Y-H., Hakvoort, R.A. (2018). Risk based framework for assessing resilience in a complex multi-actor supply chain domain. Supply Chain Forum: An International Journal, 19(4), 266-281.
Salehi Amiri, S.A.H., Zahedi, A., Kazemi, M., Soroor, J., Hajiaghaei-Keshteli, M. (2020). Determination of the optimal sales level of perishable goods in a two-echelon supply chain network. Computers and Industrial Engineering, 139, Art. No. 106156
Soriano, J., Jalao, E.R., Martinez, I.A. (2020). Integrated employee scheduling with known employee demand, including breaks, overtime, and employee preferences. Journal of Industrial Engineering and Management, 13(3), 451-463.
Tolooie, A., Maity, M., Sinha, A.K. (2020). A two-stage stochastic mixed-integer program for reliable supply chain network design under uncertain disruptions and demand. Computers and Industrial Engineering, 148, Art. No. 106722
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.
Villacís, S.A., Burneo. P.S. (2020). UAVs’ efficient assembly: Lean Manufacturing implementation in an UAVs’ Assembly Company. International Journal of Industrial Engineering and Management, 11(4), 237-252.
Wee, H.M., Yu, J., Chen, M.C. (2007). Optimal inventory model for items with imperfect quality and shortage back ordering. Omega, 35, 7-11.