›› 2012, Vol. 42 ›› Issue (04): 904-909.

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Simulation and evaluation of order-to-delivery mode for automobile manufacture enterprise

SUN Bao-feng, LUO Qing-yu, DU Yang, TAO Yan   

  1. College of Transportation, Jilin University, Changchun 130022, China
  • Received:2011-05-05 Online:2012-07-01 Published:2012-07-01

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Abstract: Complicated process of order-to-delivery in automobile manufacture enterprise deepens the difficulty in mathematical modeling and solving. Therefore, a simulation test method was proposed to analyzed quantitatively and evaluate different complex order-to-delivery modes. Simulation models of information processing and product delivery were built for 3 order-to-delivery modes, i.e. locate to order (LTO) mode, build to stock(BTS) mode and build to order (BTO) mode. By establishing the mechanism of matching between the order and the product and introducing a control variable and evaluation indexes, the dynamic monitoring and simulation evaluation of the system operation parameters were realized. Simulation results showed that LTO mode is characterized by better stability and adaptability in the inventory control than modes BTS and BTO. LTO mode also provides the selectivity among multi customer order decoupling points and is superior in the informaion processing mode and speed.

Key words: system engineering, order delivery mode, simulation evaluation, customer order decoupling point (CODP)

CLC Number: 

  • N945.13
[1] 中国汽车协会行业信息部.2010年汽车产销及经济运行情况信息.http://www.caam.org.cn/xiehuidongtai/20110110/1605051129.html.
[2] Holweg M, Pil F K. Successful build-to-order strategies start with the customer[J]. MIT Sloan Management Review, 2001, 43(1):74-83.
[3] Matthias H, Stephen M D, Peter H, et al. Towards responsive vehicle supply:a simulation-based investigation into automotive scheduling systems[J]. Journal of Operations Management, 2005, 23:507-530.
[4] 祈国宁,顾新建,谭建荣.大批量定制技术及其应用[M].北京:机械工业出版社,2003.
[5] Wu Meng-na, Ma Fei, Yang Hua, et al. Study on customer order decoupling point position base on profit//IEEE International Conference on Service Operations and Logistics and Informatics, IEEE, Beijing, 2008:44-47.
[6] Jari Partanen, Harri Haapasalo. Fast production for order fulfillment:implementing mass customization in electronics industry[J]. International Journal of Production Economics, 2004, 90:213- 222.
[7] 彭俊松.汽车行业整车订单交付系统——建立需求驱动的汽车供应网络[M].北京:电子工业出版社,2009.
[8] Verdouw C N, Beulens A J M, Bouwmeester D. et al. Modelling demand- driven chain networks using multiple CODPs[J]. IFIP International Federation for Information Processing, Lean Business Systems and Beyond, Tomasz Koch, ed., 2008, 257:433-442.
[9] Wang Xiu-li, Cheng T C E. Production scheduling with supply and delivery considerations to minimize the makespan[J]. European Journal of Operational Research, 2009, 194(3):743- 752.
[10] 马飞,吴梦娜,孙宝凤,等.大规模定制下的供应链调度建模与仿真[J].吉林大学学报:工学版,2009,39(增刊2):337-340. Ma Fei, Wu Meng-na, Sun Bao-feng,et al. Modeling and simulation of supply chain scheduling in mass customization[J]. Journal of Jilin University(Engineering and Technology Edition), 2009, 39(Sup.2):337-340.
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