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Journal of Industrial and Production Engineering Volume 35, 2018 - Issue 2
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Articles

An efficient search algorithm for obtaining the optimal replenishment strategies in assembly-type just-in-time supply chain systems

Ming-Jong YaoDepartment of Transportation and Logistics Management, National Chiao Tung University, Hsinchu, Taiwan, ROCCorrespondence[email protected]
&
Tien-Cheng HsuInformation Systems Department, Changhua Christian Hospital, Changhua, Taiwan
Pages 118-128 | Received 11 Aug 2017, Accepted 12 Dec 2017, Published online: 11 Jan 2018

References

  • Monden Y. Toyota production system: an integrated approach to just-in-time ( 4/e). Boca Raton (FL): CRC Press; 2011.
  • Nahmias S. Production and operations analysis (6/e). Chicago, IL: McGraw Hill/Irwin; 2009.
  • Wang S, Sarker BR. Optimal models for a multi-stage supply chain system controlled by kanban under just-in-time philosophy. Eur J Oper Res. 2006;172:179–200.10.1016/j.ejor.2004.10.001
  • Wang S, Sarker BR. An assembly-type supply chain system controlled by kanban under a just-in-time delivery philosophy. Eur J Oper Res. 2005;162:153–172.10.1016/j.ejor.2003.10.038
  • Akturk MS, Erhun F. An overview of design and operational issues of kanban systems. Int J Prod Res. 1999;37:3859–3881.10.1080/002075499189808
  • Price W, Gravel M, Nsakanda AL. Review of optimization models of kanban-based production systems. Eur J Oper Res. 1994;75:1–12.10.1016/0377-2217(94)90182-1
  • Karmarkar US, Kekre S. Batching policy In kanban system. J Manuf Syst. 1989;8(4):317–328.10.1016/0278-6125(89)90009-5
  • Wang H, Wang HP. Optimum number of kanbans between two adjacent workstations in a JIT system. Int J Prod Econ. 1991;22(2):179–188.10.1016/0925-5273(91)90093-9
  • Deleersnyder JL, Hodgson TJ, King RE, Ogrady PJ, Savva A. Integrating kanban type pull systems and MRP type push systems – insights from a Markovian model. IIE Trans. 1992;24(3):43–56.10.1080/07408179208964223
  • Askin RG, Mitwasi MG, Goldberg JB. Determining the number of kanbans in multi-Item just-in-time systems. IIE Trans. 1993;27(2):190–200.
  • Co HC, Sharafali M. Overplanning factor in Toyota’s formula for computing the number of kanbans. IIE Trans. 1997;29(5):409–415.
  • Nori VS, Sarkar BR. Optimum number of kanbans between two adjacent stations. Prod Planning Control. 1998;9(1):60–65.10.1080/095372898234523
  • Sarker BR, Balan CV. Operations planning for a single-stage kanban system operating under linear demand. Int J Prod Res. 1998;36(2):357–375.10.1080/002075498193787
  • Sarker CR, Balan CV. Operations planning for a multi-stage kanban system. Eur J Oper Res. 1999;112(2):284–303.10.1016/S0377-2217(97)00432-3
  • Fujiwara A, Yue X, Sangaradas K. Evaluation of performance measures for multi-part, single-product kanban controlled assembly systems with stochastic acquisition and production lead times. Int J Prod Res. 1998;36(5):1427–1444.10.1080/002075498193408
  • Banerjee A, Kim SL. An integrated JIT inventory model. Int J Oper Prod Manage. 1995;15:237–244.10.1108/01443579510099760
  • Kim SL, Ha D. A JIT lot-splitting model for supply chain management: enhancing buyer-supplier linkage. Int J Prod Econ. 2003;86:1–10.10.1016/S0925-5273(03)00006-9
  • Banerjee A, Kim SL, Burton J. Supply chain coordination through effective multi-stage inventory linkages in a JIT environment. Int J Prod Econ. 2007;108:271–280.10.1016/j.ijpe.2006.12.015
  • Ben-Daya M, As’ad R, Seliaman M. An integrated production inventory model with raw material replenishment considerations in a three layer supply chain. Int J Prod Econ. 2013;143:53–61.10.1016/j.ijpe.2010.10.024
  • Rabbani M, Layegh J, Ebrahim RM. Determination of number of kanbans in a supply chain system via Memetic algorithm. Adv Eng Softw. 2009;40:431–437.10.1016/j.advengsoft.2008.07.001
  • Pan JC, Chang K-K, Hsiao Y-C. Optimal inventory policies for serial-type and assembly-type supply chains with equal sized batch. J Ind Manage Optim. 2015;11(3):1021–1040.
  • Rahman MAA, Sarker BR. Supply chain models for an assembly system with processing of raw materials. Eur J Oper Res. 2007;181(2):733–752.10.1016/j.ejor.2006.08.015
  • Cardenas-Barron LE, Porter JD. Supply chain models for an assembly system with preprocessing of raw materials: a simple and better algorithm. Appl Math Model. 2013;37:7883–7887.10.1016/j.apm.2013.03.006
  • Ho W-T, Pan JC, Hsiao Y-C. Optimizing multi-stage production for an assembly-type supply chain with unequal sized batch Shipments. J Optim Theory Appl. 2012;153:513–531.10.1007/s10957-011-9951-y
  • Neter J, Wasserman W, Kutner M. Applied linear statistical models. Chicago (IL): Irvine; 1996.

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