[1]Agnihothri, S. R., and Kenett, R. S., “The impact of defects on a process with rework,” European Journal of Operational Research, Vol. 80, Issue 2, pp.308-327 (1995).
[2]Arreola-Risa, A.ab, “Integrated multi-item production-inventory systems,” European Journal of Operational Research, Vol. 89, No. 2, 326-340. Cited 4 times. (1996).
[3]Arreola-Risa, A., DeCroix, G.A., Inventory management under random supply disruptions and partial backorders. Naval Research Logistics, 45 (7) 687-703. (1998)
[4]Balkhi, Z.T., Foul, A., “A multi-item production lot size inventory model with cycle dependent parameters,” International Journal of Mathematical Models and Methods in Applied Sciences, Vol. 3, No. 2, pp.94-104. Cited 3 times. (2009).
[5]Bhaba R. Sarker, Gyana R. Parija, “Optimal batch size and raw material ordering policy for a production system with a fixed-interval, lumpy demand delivery system”, European Journal of Operational Research, 89, 593-608 (1996).
[6]Bilgen, B. “Application of fuzzy mathematical programming approach to the production allocation and distribution supply chain network problem.” Expert Systems with Applications, Vol. 37, No. 6, pp. 4488-4495. (2010)
[7]Biswas, P., Sarker, B.R. “Optimal batch quantity models for a lean production system with in-cycle rework and scrap” International Journal of Production Research, Vol. 46,No. 23 , pp. 6585-6610. (2008)
[8]Chen, K.K., Chiu, Y,P., Hwang, M.H. “Integrating a cost reduction delivery policy into an imperfect production system with repairable items.” Int. J. Phys. Sci., 5(13): 2030-2037. (2010)
[9]Cheng, F-T., Chen, K-K., Chiu, S.W., Hwang, M-H. “A study on improving the optimization process of a manufacturing run time problem with defective and machine breakdown.” International Journal of the Physical Sciences, 6(14), 3564-3566. (2011)
[10]Chen, K-K., Chiu, S.W. “Replenishment lot size and number of shipments for EPQ model derived without derivatives”. Mathematical and Computational Applications, Vol. 16, No.3, pp.753-760. (2011)
[11]Chiu, S.W., and Gong, D-C., “Determining the optimal lot size for the finite production model with an imperfect rework process of defective items,” Journal of Information & Optimization Sciences, Vol.25, No.1, pp.105-119 (2004)
[12]Chiu, S.W., Gong, D-C., and Wee, H-M., “Effects of random defective rate and imperfect Rework Process on economic production quantity model,” Janpan Journal of Industrial & Applied Mathmatics, Vol. 21, No. 3, pp.375-389 (2004).
[13]Chiu, Y.P. and Chiu, S.W., “An economic production quantity model with the rework process of repairable defective items,” Journal of information & optimization sciences, Vol. 24, No. 3, pp.569-582 (2003).
[14]Chiu, Y.P., Lin, C-A.K., Chang, H-H. and Chiu, V. “Mathematical modeling for determining economic batch size and optimal number of deliveries for EPQ model with quality assurance.” Mathematical and Computer Modelling of Dynamical Systems, Vol. 16, No. 4, pp.373-388. (2010)
[15]Chiu, S.W., Lin, H-D., Wu, M-F., Yang, J-C. “Determining Replenishment Lot Size and Shipment Policy for An Extended EPQ Model with Delivery and Quality Assurance Issues.” Scientia Iranica, Vol. 18, No.6, pp.1537-1544, (2011)
[16]Chiu Y.P., Liu S-C, Chiu, C-L, Chang, H-H. “Mathematical modelling for determining the replenishment policy for EMQ model with rework and multiple shipments.” Mathematical and Computer Modelling; 54(9-10); 2165-2174. (2011)
[17]Chiu Y.P., Chen, K-K, Ting, C-K. “Replenishment run time problem with machine breakdown and failure in rework.” Expert Systems with Applications, Vol. 39 pp.1291-1297 (2012)
[18]Chiu, S.W., Chiu, Y.P., Lin, L-W., Lin, Y-C., ”Production lot sizing with rework and fixed quantity deliveries” International Journal for engineering modeling , Vol.(1-4), pp.23-30, (2010)
[19]Chung, K.-J., “Bounds for production lot sizing with machine breakdowns.” Computers and Industrial Engineering, 32 (1) 139-144. (1997)
[20]Chiu, S.W., Wang, S-L., Chiu, Y. P. “Determining the optimal run time for EPQ model with scrap, rework, and stochastic breakdowns.” European Journal of Operational Research, Vol.180, pp.664-676 (2007)
[21]Chiu, S.W., Gong, D-C., Chiu, C-L., Chung, C-L “Joint determination of the production lot size and number of shipments for EPQ model with rework.” Mathematical and Computational Applications 16(2), 317-328, (2011)
[22]Chiu, S.W. “Production run time problem with machine breakdowns under AR control policy and rework.” Journal of Scientific & Industrial Research Vol. 66 pp.979-988 (2007)
[23]Dellaert, N.P., “Multi-item production control for production to order,” Engineering Costs and Production Economics, Vol. 17, No. (1-4), pp.167-173. Cited 4 times. (1989).
[24]Giri B.C., Yun, W.Y “Optimal lot sizing for an unreliable production system under partial backlogging and at most two failures in a production cycle.” International Journal of Production Economics Volume:92 ,Issue:2,pp. 157-167 (2004)
[25]Giri, B.C.; Dohi, T. “Computational aspects of an exended EMQ model with variable production rate.” Computers and Operations Research Vol.32, Issue:12, pp. 3143-3161(2005)
[26]Goyal, S.k., Huang, C.k. & Chen, K.c. “A simple integrated production policy of an imperfect item for vendor and buyer.” Production Planning and Control, Vol. 14, No. 7, pp.596-602, (2003)
[27]Groenevelt, H., Pintelon, L., Seidmann, A., Production lot sizing with machine breakdowns, Management Sciences 38, 104-123. (1992)
[28]Harris, Ford W., “How many parts to make at once”, The Magazines of Management, Vol.10, pp. 135-152 (1913).
[29]Hayek, P. A. and Salameh, M. K., “Production lot sizing with the reworking of imperfect quality items produced”, Production Planning and Control, Vol. 12,No. 6 ,pp. 584-590 (2001).
[30]Hoque, M.A. & Goyal, S.K. “An optimal policy for a single-vendor single-buyer integrated production–inventory system with capacity constraint of the transport equipment.” International Journal of Production Economics, 65(3), 305-315. (2000)
[31]Kim, T., Hong, Y., Chang, S.Y. “Joint economic procurement- production-delivery policy for multiple items in a single-manufacturer, multiple-retailer system”. International Journal of Production Economics, 103 (1), pp.199-208. (2006)
[32]Lin, G.C. & Kroll, D.E., “Economic lot sizing for an imperfect production system subject to random breakdowns.” Eng. Optimization, Vol. 38, No. 1 pp.73-92, (2006)
[33]Liu, J. J. and Yang, P., “Optimal lot-sizing in an imperfect production system with homogeneous reworkable jobs,” European Journal of Operational Research, Vol. 91, pp.517-527 (1996).
[34]Inderfurth, K., Janiak, A., Kovalyov, M.Y. & Werner, F. “Batching work and rework processes with limited deterioration of reworkables.” Computers and Operations Research, Vol. 33, No. 6, pp.1595-1605. (2006)
[35]Ojha, D., Sarker, B.R., Biswas, P. “An optimal batch size for an imperfect production system with quality assurance and rework “International Journal of Production Research, Vol. 45, No. 14, pp. 3191-3214. (2007)
[36]Rau, H., OuYang, B.C. “An optimal batch size for integrated production-inventory policy in a supply chain”. European Journal of Operational Research, Vol. 185, No. 2, pp.619-634. (2008)
[37]ROGER M. HILL , “The optimal production and shipment policy for the single-vendor single buyer integrated production-inventory problem”, International Journal of Production Research, vol. 37, no. 11, 2463-2475 (1999)
[38]Ruhul A. Sarker, Lutfar R. Khan, ” An optimal batch size for a production system operating under periodic delivery policy”, Computers & Industrial Engineering, 37, 711-730 (1999).
[39]Sarker, R.A. & Khan, L.R. “An optimal batch size under a periodic delivery policy”. International Journal of Systems Science, 32 (9), 1089-1099. (2001)
[40]Siajadi, H., Ibrahim, R.N., Lochert, P.B. “A single-vendor multiple-buyer
inventory model with a multiple-shipment policy”. International Journal of Advanced Manufacturing Technology , Vol. 27, No.9-10,pp.1030-1037. (2006)
[41]Sharma, S., “A fresh approach to performance evaluation in a multi-item production scenario,” European Journal of Operational Research, Vol. 178, No. 2, pp.627-630.10 (2007).
[42]Tamura, Takayoshi, “Procedure for a multi-item and multistage production planning problem,” JSME international journal, Vol. 32, No. 1, pp.150-157 (1989).
[43]Taft, E.W., “The most economical production lot”, The Iron Age, Vol. 101, May 30, pp.1410-1412 (1918).
[44]Ting, C-K., Chiu, Y.P., Chan, C-C.H. “Optimal lot sizing with scrap and random breakdown occurring in backorder replenishing period.” Mathematical & Computational Applications, Vol. 16, No. 2, pp.329-339. (2011)
[45]王聖嘉,「探討經濟生產批量模式含不良品重工之最佳決策」,博士論文,中原大學工業工程研究所,台中(2003)。[46]吳碧玉,「不完美品質生產系統之最佳經濟生產批量之探討」,碩士論文,朝陽科技大學工管所,台中(2003)。[47]趙皇傑,「在含不良品重工修復程式之生產環境下的重要決策分析」,碩士論文,朝陽科技大學工管所,台中(2004)。[48]劉文傑,「研究含機器當機(AR型)及不良品可完全重工修復之經濟生產批量模式之最佳生產週期」,碩士論文,朝陽科技大學工管所,台中(2006)[49]劉尚智,「研究定量多次配送與含不良品重工失敗率因素之最佳生產批量決策」,碩士論文,朝陽科技大學工管所,台中(2008)。[50]林芝安,「在不完美重工生產系統下探討定量多次配送對生產批量與配送次數之最佳決策」,碩士論文,朝陽科技大學工管所,台中(2009)。[51]江國偉,「探討整合供應商與多個顧客在含部份報廢部分可重工修復之生產系統的(n+1)次配送與整合多樣產品生產含重工修復並多次配送的最佳生產與配送策略」碩士論文,朝陽科技大學工管所,台中(2011)[52]宋銘玄「求解多樣產品含部份報廢之生產系統的生產週期與配送問題與含設備當機及完全報廢之最佳生產時間」碩士論文,朝陽科技大學工管所,台中(2012)