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浙江大学学报(工学版)
J4  2009, Vol. 43 Issue (09): 1644-1648    DOI: 10.3785/j.issn.1008973X.2009.
    
Supply chain multiobjective optimization based on fuzzy cooperative game
FU Yu-ying1,2, PAN Xiao-hong1 ,WANG Zheng-xiao1
(1.Institute of Modern Manufacturing Engineering, Zhejiang University, Hangzhou 310027,China;
2.Engineering Research Center, Zhejiang Gongshang University, Hangzhou 310035,China)
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Abstract  

The process of mside games of node enterprises was analyzed by using the concept of opportunity cost and the willingness to pay according to the cooperative mside games of multilevel supply chain under fuzzy condition. Fuzzy integer programming can be used to express the fuzzy assignment game among supply chain partners at different level. A fuzzy game model based on benefit and efficiency was presented for supply chain cooperation after studying the production assignment under various goals. A solution to the model was proposed by introducing the ranking of fuzzy number. Example results show that giving objective weight can accomplish a special production mode on the premise of the steady operation of supply chain.

CLC:  TH 122  
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Cite this article:

FU Yu-Ying, BO Xiao-Hong, WANG Zheng-Xiao. Supply chain multiobjective optimization based on fuzzy cooperative game. J4, 2009, 43(09): 1644-1648.

URL:

http://www.zjujournals.com/eng/10.3785/j.issn.1008973X.2009.     OR     http://www.zjujournals.com/eng/Y2009/V43/I09/1644


模糊合作博弈下的供应链多目标优化

针对模糊合作博弈下供应链多层次多方合作博弈,分析节点企业通过机会成本和乐意支付进行多方合作博弈的过程,导出模糊整数规划可以用来表示供应链不同层次合作伙伴间利益均衡时模糊指派博弈,进一步研究不同目标下的生产任务指派方式,建立基于效益和效率的多目标供应链模糊指派博弈模型;研究模糊数的排序问题,提出模型的求解方法,并给出了说明示例.结果表明,在确保供应链稳定运作的前提下,通过目标权重设置可以达到不同的生产组织模式.

[1] 廖成林,孙洪杰.均势供应链及其利益分配机制探讨[J].管理工程学报,2003,17(4): 8385.
LAO Chenglin,SUN Hongjie. Balanced supply chain and discussion of its benefit allocation mechanism[J]. Journal of Industrial Engineering, 2003,17(4): 8385.
[2] 马士华,王鹏. 基于Shapley值法的供应链合作伙伴间收益分配机制[J]. 工业工程与管理, 2006,11(4): 4345.
MA shihua, WANG peng. The study of profit allocation among partners in supply chain based on the Shapely value[J]. Industrial Engineering and Management,2006,11(4): 4345.
[3] NISHIZAKI I,SAKAWA M. Fuzzy cooperative games arising from linear production programming problem with fuzzy parameters [J]. Fuzzy Sets and Systems, 2000, 114(1): 1121.
[4] MARCH E, OVIEDO J A. The core of a further msided assignment game[J]. European Journal of Operation Research ,1997,98(3):617625.
[5] 兰洪杰,施先亮,赵启兰.供应链与企业物流管理[M]. 北京:清华大学出版社,2004.
[6] YONG D, ZHENFU Z. Ranking fuzzy numbers with an area method using radius of gyration[J]. Computers and Mathematics with Application, 2006,51(67): 11271136.
[7] ZHANG Q, CHEN J H. Multiple attribute decision making: approach integrating subjective and objective information[J].International Journal of Manufacturing Technology and Management, 2003,5(4): 338361
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