摘要
面对多变的市场环境和日益增长的全球竞争,21世纪中国汽车业应顺应国际汽车制造业信息化建设的全球化、集成化、协同化和服务化的发展要求。虚拟供应链(Virtual Supply Chain,VSC)'作为一种新型的组织模式,能最大限度地实现各种资源的优化组合,提高供应链对市场的反应速度和市场竞争力。基于网络中介的汽车行业虚拟供应链(VSC based on CyberMediary, VSC-CM)是新竞争环境下提出的适应汽车行业信息化发展方向的创新型供应链运作模式,它依托具有行业特色的网络中介,采用一对多的服务方式为行业内各类型企业提供信息资源服务和供应链管理共性技术支持。论文建立了汽车行业VSC-CM管理体系和运作模型,并对模型实现的若干关键技术进行了深入研究。
1.深入分析了国内外汽车供应链管理现状与发展需求和汽车行业供应链运作特点,研究了VSC-CM模式在汽车行业中的应用优势,并确立了网络中介在VSC运作中的管理职责和协同服务中心作用,建立了面向汽车行业的VSC-CM运作模型及其体系结构,剖析了VSC-CM运作中涉及的关键技术。
2.以客户需求为目标,研究了VSC-CM优化组建方法及特点。通过对汽车行业客户需求特征的统计分析,定义了VSC-CM运作模式下的企业及供应链综合可靠性和磨合度指标,提出了包含交货期、成本、质量、服务、综合可靠性及磨合度的客户需求目标体系,并给出了相应的目标量化方法。建立了客户动态目标下兼顾VSC-CM整体优化与企业个性需求的三阶段优化组建方案,并对基于模糊c均值聚类法与Topsis综合评价法的方案实现算法进行了实例研究。
3.以工作流技术为基础,分析了VSC-CM运作过程的分布性、动态性和面向对象性等特点,创新地应用变结构面向对象Petri网建立了适应多变环境的VSC-CM动态运作过程模型,提出了支持VSC-CM动态重构和实现过程模型动态修正的变结构算法。构建了与过程模型相适应的面向角色VSC-CM过程管理体系和过程管理系统模型,实现了VSC-CM运作过程的柔性建模和敏捷管理。
4.深入研究了以“发展有持续竞争力的汽车供应链和企业群”为目标的VSC-CM管理战略及其实现策略;构建了面向战略目标的汽车行业VSC-CM绩效评价管理体系和评价模型,并提出了该体系下体现Vsc整体绩效和成员绩效关系的企业综合绩效评价方法和策略;重点研究了基于战略的VSC-CM整体绩效评价指标体系和基于交互与协作过程的企业间合作绩效评价指标体系;运用实例验证了基于三角模糊数互补矩阵层次分析法和多级模糊综合评价法的绩效评价算法的简洁型和实用性。
5.在理论研究基础上,结合汽车行业实际,构建了基于J2EE架构的汽车行业VSC-CM原型系统。
汽车行业VSC-CM运作模式及其关键技术的研究,符合了当前重点推进中小企业信息化进程和提高行业整体供应链合作水平的汽车行业信息化发展战略要求,论文研究成果对VSC-CM的理论发展和进一步深化应用具有积极促进作用。
Confronting fast changing market environment and increasing globalization competition, the Chinese automotive industry in 21st century should adapt itself to satisfy the informatization development requirements of international manufacture industry which characterizes globalization, integration, cooperativity and public service. As a new organization pattern, virtual supply chain (VSC) can realize optimal combination of various resources to the fullest extent and enhance market response speed of supply chain and market competitiveness. VSC based on cybermediary (VSC-CM) is an innovative supply chain management (SCM) pattern which results from new competitive environment and conforms to informatization development trend of Chinese automotive industry. It mainly turns to cybermediary serving certain industry for aid to offer information resource services and common technology supports on SCM to various enterprises in the industry by means of "one serves many". This paper establishes VSC-CM management framework and its operation model and goes deep into study on several key technologies to actualize the model.
1. After giving a detailed analysis on current situation and development requirements of SCM in the Chinese automotive industry and operation features of automotive industry supply chain, the paper presents main preponderance of VSC-CM applied to the industry and determines management responsibility of cybermediary and its functions serving as cooperative service center. Thereby, VSC-CM operation model and its management architecture applied to the automotive industry are established, and the key technology involved in VSC-CM operation is analyzed in detail.
2. The paper discusses methods and features of VSC-CM optimal design based on customer demand goals. According to statistical analysis on features of customer demands in the automotive industry, comprehensive reliability index and familiarity index of enterprise and supply chain in VSC-CM operation pattern are defined, and a customer demand goal system which covers the indexes of time, quality, cost, service, comprehensive reliability and familiarity degree is set up and quantifying methods of corresponding goals are given. Moreover, the paper establishes a three-stage scheme of VSC-CM optimal design based on dynamic goals which can simultaneously satisfy holistic optimization demands of VSC-CM and individuation demands of member enterprises, and offers VSC optimal design algorithm which synthesizes Fuzzy c-Means Clustering algorithm and Topsis Comprehensive Evaluation algorithm and gives corresponding case study.
3. On the basis of workflow technology, the paper analyzes features of VSC-CM operation process, such as distributed, dynamic and object-oriented etc., and constructs VSC-CM dynamic operation process model which can adapt to diverse operating environment by creatively applying Object Petri Net with Changeable Structure (OPN-CS). A changeable structure algorithm is also provided to restructure VSC flexibly and modify process model dynamically. In addition, an object-oriented VSC-CM process management system framework and model matching the process model are established, which actualizes flexible modeling and agile management of VSC-CM operation process.
4. The paper elaborates on VSC-CM management stratagem goals—"to foster industry SC and enterprise group with persistent competition " and gives corresponding implementing strategies. Then the stratagem-oriented VSC performance evaluation management system and evaluation model are set up, and methods and strategies of enterprise comprehensive performance evaluation which aims at above evaluation system and reflects the correlations between VSC holistic performance and member enterprise performance are put forward. Moreover, the paper gives emphasis on constructing the evaluation index system of VSC-CM holistic performance and cooperation performance based on interaction and collaboration processes between enterprises. It also demonstrates concision and practicability of the performance evaluation algorithm based on Triangle. Fuzzy Numbers Complementary Matrix Analytic Hierarchy Process algorithm and multilevel Fuzzy Comprehensive Evaluation algorithm.
5. According to above theory researches and practices of the automotive industry, the paper constructs a VSC-CM management prototype system based on J2EE framework.
Studies on VSC-CM operation pattern and its key technology satisfy stratagem requirements of informatization development in the automotive industry—to boost informatization course of small and medium-size enterprises and enhance SC cooperation level of whole industry. Researches of the paper will benefit theory development and further application of VSC-CM.
引文
[1]马士华.供应链管理[M].北京:机械工业出版社,2005:389-462.
[2]陈兵兵.供应链管理-策略、技术与实务[M].北京:电子工业出版社,2004:9-39.
[3]王非.供应链管理若干问题研究综述[J].人文地理,2005,(3)26-29.
[4]Stock Gregory. Enterprise Logistics and Supply Chain Structure [J]. Journal of Operations Management,2000, (18):531.
[5]Jang Yang-ja. A Combined Model of Network Design and Production/Distribution Planning for a Supply Network [J]. Computers and Industrial Engineering,2002,(22):281.
[6]Tapicro. A Supply Chain Network Equilibrium Model, Transportation Research Part [J]. Logistics and Transportation Review,2002,38(5):281-303.
[7]方春明.中国汽车工业供应链管理的创新方向[J].物流技术.2007,26(8):141-144.
[8]张彩芳.网络化制造环境下的虚拟供应链及其若干关键技术研究[D].重庆大学硕士论文,2004,3.
[9]Sing J, et al. Preface [D]. Proceedings of the 5th International Conference on Computer Integrated Manufacturing, Singapore:Gintic,2000.
[10]Wright P K, Dornfeld D A. CyberCut:A Networked Machining Service [J]. Transactions of NAMRI/SME,1998, (16):281-286.
[11]湖北省“十五”制造业信息化工程工作总结报告和“十一.五”发展专项规划,武汉,2006.
[12]王高英.基电子商务中心的汽车行业敏捷供应链管理体系的研究[D].华中科技大学硕士论文,2006,3.
[13]李志.汽车零部件供应链管理的优化研究[D].武汉理工大学硕士论文,2006,11.
[14]洪志燕.汽车行业供应链战略管理的关键举措[J].现代企业,2008,2:50-51.
[15]蔡丹.汽车零部件集成供应链构建和绩效评价[D].武汉理工大学硕士论文,2006,11.
[16]孙涛.浅谈汽车行业电子供应链的构建[J].商业文化,2008,1:137.
[17]王瑾.湖北省汽车产业供应链整合研究[J].黑龙江对外经贸,2008,11:86-88.
[18]王爱民.采购国际化形势下我国汽车零部件业的发展[J].武汉汽车工业大学学报,2000,10:5-9.
[19]苟海平.汽车供应链特征与中国自主零部件企业的发展[J].商用汽车杂志,2006,11:107-111.
[20]Baxter L F. Time and the Virtual Supply Chain[C]. International Conference on Management of Engineering and Technology,1999:134.
[21]Carletta J, McEwan R, Anderson A. Communication in Virtual Supply Chain Teams [C]. Proceedings of the 10th International IFIP,1998:201.
[22]周巍.基于供应链模式的虚拟企业资源信息系统研究[D].哈尔滨理工大学硕士论文,2004,3.
[23]Chandra C, Smirnov A V. Virtual Supply Chain Management:Information Framework and Agreement Network Model [C]. Proceedings of the 6th International Conference on Computer Supported Cooperative Work in Design,2001:116.
[24]资料来源于软件评价:公司与产品(1985年),世界专利(1963年),美国专利(1950年).
[25]李群明.虚拟供应链管理建模及实施技术[J].中国机械工程,2001,6:663-667.
[26]资料来源于美国政府研究报告(1988年),科学文摘(1983年),工程索引(1988年),计算机文档(1983年),机械工程(1973年),会议文献(1973年).
[27]陈妮娜.基于供应链的虚拟企业的理论研究[D].武汉大学研究生论文,2005,3.
[28]但斌,张旭梅.虚拟供应链体系结构和运作模式研究[J].工业工程与管理,2000,(5):46-48.
[29]张旭梅.基于网络化制造平台的虚拟供应链组建及运作技术[J].管理学报,2008,3:177-182.
[30]孟新武.基于ASP的虚拟供应链支持系统研究与开发[J].工业工程,2007,5:58-62.
[31]单勇.虚拟供应链体系结构和协调研究[D].:哈尔滨工业大学硕士论文,2007,7.
[32]李国强.基于项目管理的虚拟供应链运作模式及管理方法研究[D].重庆大学硕士学位论文,2005,3.
[33]龚英,靳俊喜.拉动型虚拟供应链优势评析[J].商业时代·理论.2004,(32):43-44.
[34]姜万生.基于虚拟企业注册中心的供应链管理约束机制实现[J].昆明理工大学学报(理工版),2006,31(2):103-106.
[35]龚英.虚拟供应链合作伙伴的协调机制研究[J].经济问题探索.2005,3:67-69
[36]刘松.基于可拓理论的虚拟供应链利益分配方法研究[D].哈尔滨理工大学硕士论文,2005,3.
[37]侯彩霞.虚拟供应链信任治理机制研究[D].重庆交通大学硕士论文,2008,3.
[38]赵炜.面向虚拟企业的供应链管理研究[J].制造技术与机床,2002,(9):11-13
[39]方志梅.基于延迟生产的虚拟企业供应链管理[J].中国机械工程,2002,13(14):1229-1233.
[40]周巍,翟丽丽.基于供应链模式的虚拟企业资源信息系统设计[J].哈尔滨理工大学学报,2004,9(1):65-68.
[41]叶飞帆.层次化虚拟企业及其供应链管理[J].中国机械工程,2005,16(2):138-142
[42]文晓巍.基于VPN的虚拟供应链概念辨析与特点[J].管理视野,2007,7:73-74.
[43]韩伟力,陈刚,尹建伟,董金祥.基于产品结构的供应链设计[J].计算机集成制造系统-CIMS,2002,(1):35-40.
[44]ZHEN Wenjun, ZHANG Xumei, et al. Evaluation Architecture and Optimization Decision of Partner Choice in Virtual Enterprises [J].Computer Integrated Manufacturing Systems, 2000,6 (5):63-67. (in Chinese).
[45]邹国胜,周晓东.基于大规模定制的供应链设计[J].商业研究,2002,(20):40-42.
[46]孙世龙,.基于产品特性的供应链设计研究[J].物流技术,2006,(3):146-149.
[47]Korpelar J, L ehmusvaara A.A Customer-oriented Approach to Warehouse Network Evaluation and Design [J].International Journal of Product ion Economics,1999,59: 135-146.
[48]施福莱,王海艳.基于产品特性的供应链设计[J].物流技术,2001,(1):22-23.
[49]张效成.最小成本的供应链最优设计[J].物流技术,2004,(10):60-63.
[50]童泽平.基于动态规划的供应链选优模型[J].武汉科技大学学报(社会科学版.2006(8),3:47-49.
[51]Kasilingam R, Lee C. Selection of Vendors-a Mixed Integer Programming Approach [J]. Computers and Industrial Engineering,1996,31:347-350.
[52]徐学军,花雪兰.供应链设计的匹配策略[J].科技进步与对策,2005,(1):109-111.
[53]赵海波,方志梅,叶飞帆等.虚拟企业供应链网络的模糊多目标优化[J].中国制造业信息化,2005,34(2):81-84.
[54]彭怡,朱金福,.一种需求不确定下的多目标供应链设计研究[J].科技进步与对策,2006,(2):82-84.
[55]胡勇.一体化供应链设计的组合战略研究[J].物流技术,2002,(10):33-36.
[56]赵晓煜,黄小原,孙福权.面向重要供应商和客户的供应链设计方法[J].系统工程,2005,(6):34-39.
[57]范体军,胡清淮.大型供应链设计的基本数学模型与算法研究[J].中国管理科学,2004,(6):46-50.
[58]杨天剑,汪波,赵艳彬.全球供应链设计与管理的集成模型[J].工业工程,2004,(5):47-51.
[59]孙元欣.供应链设计和评估的两阶段模型[J].上海大学学报(自然科学版),2005,(2):212-216.
[60]吴强.基于动态规划的供应链整合[J].科技创业月刊.2006,8:77-78.
[61]王卫平.基于VeC模型结合模糊操作时间与模糊成本的虚拟供应链伙伴选择问题研究[J].计算机系统应用,2007,3:20-23.
[62]任沁清.模糊层次分析法与灰色关联分析法结合选择虚拟企业合作伙伴[J].商业文化,2008,12:110-111.
[63]苗冰.虚拟企业合作伙伴选择方法研究[J].制造业信息化,2008,3:26-29.
[64]张效功.虚拟企业合作伙伴选择问题研究[D].兰州大学硕士论文.2008,4.
[65]赵阳.用模糊综合评价方法选择虚拟企业合作伙伴的研究[J].计算机应用研究.2008,1:111-113.
[66]崔广贤.多供应商选择的模糊聚类分析[J].中国储运网,2007,9:121-122.
[67]杜杨.基于聚类分析的供应链合作伙伴选择[J].技术经济,2007,9:61
[68]焦蕾稚.基于模糊聚类分析的第三方物流供应商选择[J].物流科技,2004,127(111):34-37
[69]曹武军.基于模糊聚类分析的供应链契约伙伴选取的研究[J].物流技术,2007,26(4):80-82.
[70]王林雪.聚类分析法在供应链联盟合作伙伴初选中的应用[J].情报方法,2005,10:26-28.
[71]闫秀霞.第三方物流服务商选择的多目标决策研究[J].中国机械工程,2004,15(12):1088-1090.
[72]王臣.虚拟企业伙伴选择问题的多目标决策模型[J].温州大学学报,2004,17(6):19-26
[73]姜连馥.制造业供应链联盟多目标决策研究[J].中国机械工程,2005,16(6):507-510.
[74]韩江洪.基于自适应遗传算法的虚拟企业伙伴选择求解[J].计算机集成制造系统,2008,1:118-125.
[75]曾丽.任务分解结构下的虚拟企业制造伙伴选择优化算法[J].中国管理信息化,2008,9:65-67.
[76]Talluri S, BakerR, Sarkis J.A Framework for Designing Efficient Valuechain Networks [J]. International Journal on Production Economics,1999,62:133-144.
[77]王鹤.基于两阶段的虚拟企业合作伙伴选择模型[J].中国科技信息,2007,3:125-126
[78]刘宝剑.基于蚁群算法的虚拟企业合作伙伴选择[J].计算机应用与软件.2008,1:127-129.
[79]蒋建国.基于蚁群算法的敏捷供应链伙伴选择[J].系统仿真学报,2006,(18)12:3377-3379.
[80]王茜,何文奇.虚拟企业供应链工作流模型的研究与实现[J].计算机集成制造系统-CIMS,2002,(1):41-45.
[81]叶良朋,王正成,田景红,王峰.基于虚拟供应链的工作流管理系统[J].计算机工程,2003,(18):104-106.
[82]赵卫东等.基于角色的跨组织工作流研究[J].系统工程与电子技术,2003,25(8):954-958.
[83]唐达等.基于角色的动态跨组织商业过程的工作流研究[J].小型微型计算机系统,2006,27(5):945-949.
[84]高琳.供应链运作过程管理及框架模型研究[J].制造技术与机床,2006,7.
[85]刘建勋,张申生,汪良主.供应链与B2B电子商务:基于分布式工作流系统的方案研究[J].高技术通讯,2001,(4):58-71.
[86]唐亮.基于面向对象Petri网的供应链运作建模[J].东北大学学报(自然科学版),2008,29(7):1037-1040.
[87]孙瑞志,史美林.支持工作流动态变化的过程元模型[J].软件学报,2003,14(1):63-67.
[88]何建佳等.跨组织过程集成的业务过程管理框架研究[J].工业技术经济,2006,25(8):12-14.
[89]姜新华,王俊义.一种基于Agent支持电子供应链和B2B电子商务的工作流模型[J].内蒙古师范大学学报(自然科学汉文版),2004,(3):281-283.
[90]ZengLZ, NguA, BenatallahB, etal. Anagent-based Approach for Supporting Cross-enterprise Workflow[C].Database Conference, Proceedings of 12nd Australian, 2001:123-130.
[91]高学贤,刘军.Web服务、移动Agent及工作流技术在组建动态联盟中的应用[J].计算机应用.2004,8:147-149.
[92]刘建勋,张申生,汪良主.供应链与B2B电子商务:基于分布式工作流系统的方案研究[J].高技术通讯,2001,(4):58-71.
[93]綦方中,王正肖,潘晓弘,程耀东,孙永军.虚拟供应链工作流管理系统框架研究[J].中国机械工程,2002,(9):750-754.
[94]陆赛群,孙静,张海波.基于工作流的虚拟供应链管理系统设计[J].浙江工程学院学报,2003,(4):280-285.
[95]徐琪,徐福缘.Web环境中的供应链工作流管理与决策[J].计算机工程与应用,2002,(23):51-53.
[96]Chen Q.M., Dayal M, Griss M. Multi-agent Cooperation Dynamic Workflow and XML for E-commerce Automation[C]. Proceedings of the 4~(th) International Conference of Autonomous Agents. Spain:Barcelona,2000:255-256.
[97]刘建勋,胡涛,张中生.基于工作流与XML的敏捷供应链管理系统集成框架研究[J].计算机集成制造系统-CIMS,2001,(6):6-11.
[98]李康君,邓飞其.基于工作流技术的供应链信息集成研究[J].成组技术与生产现代化,2003,(4):19-22.
[99]森尼尔.乔普瑞,彼得.梅因德尔.供应链管理一战略、规划与运营[M].北京:社会科学文献出版社,2003:103-125.
[100]郭敏,王红卫.合作型供应链的协调和激励机制研究[J],系统工程,2002,20(4):49-53.
[101]Cachon G. P., Zipkin P. H.. Competitive and Cooperative Inventory Policies in a Two-stage supply chain [J].Management Science,1999,(45):936-953.
[102]Lee H., Whang S.. Decentralized Multi-echelon Supply Chains [J]. Management Science, 1999, (45):633-641.
[103]Martin Christopher, Uta Jitner. Developing Strategic Partnerships in the Supply Chain [J]. European Journal of Purchasing and Supply Management,2000, (6):117-127.
[104]林春梅,汤兵勇,谢莉莉.支持工作流协作的企业供应链本体模型研究[J].计算机应用与软件,2004,(10):50-52.
[105]柴跃廷.敏捷供需链管理(M),北京:清华大学出版社,施普林格出版社,2001.9.
[106]徐琪,Robin Qiu,徐福缘.集成工作流与 Multi-agents技术的供应链协同管理[J].计算机工程,2003,(15):19-21.
[107]CingilI. An Architecture for Supply Chain Integration and Automation on the Internet [J]. Distributed and Parallel Databases,2001,(10):59-102.
[108]Nissen M.E. Agent-based Supply Chain Integration [J]. Information Technology and Management,2001, (2):289-312.
[109]刘永胜.供应链绩效评价研究现状与发展趋势[J].唐山学院学报,2003,(1):64-69.
[110]QRTM, SCOR Modell. http://www. ie.utoronto.ca/EII/profiles/rune.
[111]中国企业供应链管理绩效水平评价参考模型(SCPR110).
[112]Robert S. Kaplan, David P. Norton. The Balanced Scorecard Measures That Drive Performance [J]. Harvard Business Review,1992,70(1):71-79.
[113]施家芳,张媛.关于供应链绩效评价的探讨[J].北方经贸,2004,(6):88-89.
[114]SmitsM.T., Kleijnen J.P.C.. Performance Metrics in Supply Chain management [J]. Journal of the Operational Research Society,2003,54(5):507-514.
[115]马士华,李华焰,林勇.平衡记分法在供应链绩效评价中的应用研究[J].工业工程与管理,2003,7(4):5-10.
[116]BenitaM. Beamon. Measuring Supply Chain Perfomance [J]. International Journal of Operations&Production Management,1999,19(3):275-292.
[117]霍佳震,马秀波.基于流程的供应链绩效评价[J].商业研究,2005,(5):14.
[118]方承武,雷勋平.基于顾客满意度的供应链绩效评价[J].安徽工业大学学报(自然科学版),2005,(4):412-414.
[119]LummusR.R, VokurkaR.J, AlberK.L. Strategic Supply Chain Planning [J]. Productio and Inventory Management Journal,1998,39(3):49-58.
[120]Beamon BM. Supply Chain Design and Analysis:Models and Methods[J].International Journal of Production Economics,1998, (55):241-294.
[121]Camm.J.D, ChormanT.R. Judgement and G1S:Restructuring P&G's Supply Chain[J]. Interfaces,1997,27(1):128-142.
[122]Bullinger H. Kuhner M. And Hoof A.V. Analyzing Supply Chain Performance Using a Balance Measurement Method [J]. Int.J.Production Research,2002,40(15):353,431.
[123]高萍,黄培清,张存禄.基于SCOR模型的供应链绩效评价与衡量指标选取[J].工业工程与管理,2004,9(3):49-521.
[124]何忠伟,毛波.基于DEA和聚类分析的供应链绩效评价基准选择[J].科学学与科学技术管理,2003,24(6):36-391.
[125]CookeJA. Measure for Measure [J].Logistics,1999,38(7):111-113.
[126]王春喜,查建中,李建勇.供应链性能评价的研究现状和发展趋势[J].管理工程学报,2003,(3):27-29.
[127]霍佳震,隋明刚,刘仲英.集成化供应链整体绩效评价体系构建[J].同济大学学报(自然科学版),2002,30(4):495-499.
[128]史丽萍,蔡歆.电子商务环境下供应链整体绩效评价[J].物流科技,2003,26(3):14-16.
[129]徐贤浩,马士华,陈荣秋.供应链绩效评价特点及其指标体系研究[J].华中理工大学学报(社会科学版),2000,14(2):69-72.
[130]陈志祥.AHP方法在敏捷供应链协调绩效评价决策系统的应用[J].计算机工程与应用,2003,39(33):33-35.
[131]TamCY, TummalaVM. An Application of the AHP Invendor Selection of at Elecommunication system [J]. International Journal of Management Science,2001, 29(2):171-182.
[132]綦方中,钟凌燕,潘晓弘,.敏捷供应链绩效评价过程与方法研究[J].计算机集成制造系统,2006,(9):1472-1475.
[133]F.T.S. CHAN. Interactive Selection Model for Supplier Selection Process:An Analytical Hierarchy Process Approach [J]. International Journal of Production Research,2003, 41(15):3549-3579.
[134]Petroni, Alberto. The Logistics of Industrial Location Decisions:An Application of the Analytic Hierarchy Process Methodology [J]. International Journal of Logistics: Research&Applications,2000,3(3):273-289.
[135]陈畴镛,胡保亮.基于平衡记分卡和层次分析法的供应链绩效评价[J].财经论丛,2003,(5):51-52.
[136]Chan, FTS, Qi, HJ. A fuzzy Basis Channel-spanning Performance Measurement Method for Supply Chain Management [C].Proceedings of the Institution of Mechanical Engineers-Engineering Manufacture,2002,216(8):1155-1167.
[137]卜祥智,王文斌,武振业.敏捷供应链中战略伙伴选择问题探析[J].西南交通大学学报,2004,39(2):239-243.
[138]赵宇,孙茂相,张十廉.供应商选择的决策支持系统[J].信息与控制,2001,30(6):547-549.
[139]NarasimhanR, TalluriS, MendezD. Supplier Evaluation and Rationalization Via Data Envelopment Analysis [J].The Journal of Supply Chain Management,2001,37(1):28-37.
[140]娄平,陈幼平,周祖德,袁楚明.敏捷供应链中供应商选择的AHP/DEA方法[J].华中科技大学学报(自然科学版),2002,30(4):29-31.
[141]俞杰,宋国防,柏顺.基于供应商发展的综合评价研究[J].上海大学学报(自然科学版),2002,8(5):464-468.
[142]钟祖昌,陈功玉,.基于网络DEA的供应链绩效评价方法与应用[J].物流技术,2006,(4):29-33.
[143]柳翠寅等.汽车产业链协同商务平台动态联盟管理系统研究与实现[J].计算机应用与软件,2008,(25)7:280-282.
[144]李睿.汽车工业集成化供应链的构建-管理与评价[D].武汉理工大学博十论文,2005,6.
[145]李宁.我国汽车供心链状况和相关对策[J].北京物流流通,2006,4:30-32.
[146]卜庆国 韦明.信息不对称与市场中介组织建设[J].理论研究.2007,4:125.126.
[147]问向荣等.信息资源开发利用的中介组织结构及模式[J].西安交通大学学报(社会科学版),2001,12:21-24.
[148]李莉.面向电子市场的网络中介逆向选择风险控制研究[J].图书情报工作,2005,6:71-75.
[149]董惠良.论网络信息中介商.华尔经济管理[J].2001,2:96-98.
[150]王琴.基于网络的商务中介产业功能与优势定位[J].上海管理科学.2003,6:19-21.
[151]赵亮,孙烨华.网络信息中介研究[J].2006,2:33-35.
[152]金宁.汽车服务流程中的客户需求设计[J].世界科技研究与发展,2008,30(2):212-214.
[153]苏辉.汽车零部件开发中客户需求识别的研究[D].上海交通大学硕十论文,2007,7.
[154]杜杨.基于聚类分析的供应链合作伙伴选择.技术经济[J],2007,9:61.
[155]王军.基于改进DEA的第三方物流企业的选择研究[Dl.合肥工业大学硕士论文,2007,10.
[156]高英.第三方物流企业评价体系的研究[J].辽宁财专学报2004,2:32-34.
[157]李柏年.模糊数学及其应用[M].合肥:合肥工业出版社,2007:130-134.
[158]崔连延.基于减法聚类与改进的模糊c均值聚类算法的说话人识别方法的研究[J].信息 与控制,2008,6:358-361.
[159]肖春景,杨慧,刘春波.基于改进模糊c-均值数据预处理方法的研究[J].中国民航大学学报Vo1.25 No.2,2007.4:36-39.
[160]李正义,曾雪兰,覃菊莹.离差最大化特征加权模糊c-划分的聚类分析[J].模糊系统与数学,2008,22(4):170-174.
[161]雷战波.基于熵权夹角和TOPSIS的企业经济效益诊断模型[J].运筹与管理,2005,(14)2:142-148.
[162]李嘉菲.基于工作流的业务过程管理关键技术研究[D].吉林大学博士论文,2007,12.
[163]范玉顺.工作流管理技术基础[M].北京:清华大学出版社,2001:54-75.
[164]李波.基于Agent的柔性工作流技术研究与应用[D].成都理工大学硕士论文,2007,7.
[165]刘斯伟.基于Agent技术的工作流模型[D].吉林大学硕士论文,2007,6.
[166]曾炜,阎保平.工作流模型研究综述[J].计算机应用研究,2005,5:11-13,22.
[167]Malone, Crowston, K. What is Coordination Theory and How Can It Help Design Cooperative System [C]. NewYork:Proc. CSCA'90,1990:357-370.
[168]Keller, Gand Meinhardt, et al. Business Process Reengineering Based on the R/3 Reference model [M]. SAP AG.1994:56-60.
[169]Medina-Mora, Qinograd, Flores, R., et al. The Action Workflow Approach to Workflow Management Technology [C]. Proceeding of the ACM 1992 Conference on Computer Supported Cooperative Work (CSCW),1992:281-288.
[170]Scholz-Reiter, Stichel, E. Business Process Modeling [M]. Berlin:Springer-Verlag,1996: 235-240.
[171]W.M.P.van der Aalst, A.H.M.ter Hofstede. Workflow Patterns on the Expressive Power of (Petri-net-based) Workflow Language [C]. Aarhus, Denmark, Proceedings of the 4th Workshop on the Practical Use of Coloured Petri Nets and CPN Tools,2002(8):1-20.
[172]Muth, P., Wodtke D., Weissenfels, J., etal. Enterprise-Wide Workflow Management Based on State and Activity Charts. http://paris.cs.uni-sb.de/public_html/papers/nato-wf:ps.
[173]Alonso, G, Agrawal, D., et al. Advanced Transaction Model in Workflow Context [C]. Proceedings of the International Conference on Data Engineering (ICDE),1996,8:574-581.
[174]陈慧灵,王宪增,邹宽城.基于Petri网的工作流过程建模[J].计算机工程与科学:2008,30(5):66-70.
[175]江志斌.Petri网及其在制造系统建模与控制中的应用[M].北京:机械工业出版社,2004:197-211.
[176]孙建召.基于面向对象Petri网的工作流建模及性能分析[J].计算机技术与发展,2007,(17)10:73-77.
[177]崔洪斌,王爱民J2EE Web Services高级编程[M].北京:清华大学出版社,2005:13-57.
[178]余磊.基于Agent的Web Services自适应工作流模型的研究[J].计算机工程与设计,2007,4,28(8):1914-1917.
[179]Ron Basu. New Criteria of Performance Management:A Transition from Enterprise to Collaborative Supply Chain [J]. Measuring Business Excellence,2001,5(4):7-13.
[180]Edward A. Morash. Supply Chain Strategies, Capabilities, and Performance [J]. Transportation Journal,2001, (9):37-55.
[181]周鹏.中国汽车制造企业供应链绩效评价研究[D].兰州理工大学硕士论文,2008,6.
[182]苟海平,兰仲菊.汽车零部件产业现状与发展趋势[J].汽车工业研究,2008,(8):32-36.
[183]张翠华.供应链协同绩效评价及其应用[J].东北大学学报自然科学版,2006(27)6:706-708.
[184]洪伟民.敏捷供应链绩效评价体系的构建[J].现代管理科学,2006,6:79-82.
[185]Bechtel C, Jayaram J. Supply Chain Management:a Strategic Perspective [J].The International Journal of Logistics Management,1997,8(1):15-34.
[186]Stefan Holmberg. A Systems Perspective on Supply Chain Measurements [J]. International Journal of Physical Distribution&Logistics Management,2000,30:847-868.
[187]甘红云.供应链绩效评价研究现状综述[J].北方经济.2007,4:82-83.
[188]赵红梅.应用改进的灰关联法对供应链绩效评价的研究[J].山西科技2007,1:88-91.
[189]黄卫来.一种改进的三角模糊数互补判断矩阵的排序方法[J].系统工程与电子技术2007,29(7):1090-1093.
[190]周珍.三角模糊数互补判断矩阵的一种排序方法及其在项目投资决策中的应用[J].数学的实践与认识,2005,35(11):74-77.
[191]俞树荣.基于模糊层次分析法的长输管道风险分析[J].兰州理工大学学报.2009,4:58-61.
[192]杨静.模糊互补判断矩阵一致性检验和改进方法研究[J].控制与决策,2009,6(25):903-907.
[193]杨琼.用模糊层次分析法评价供应链库存控制绩效[J].工业工程,2006,2(9):116-119.
[194]刘冬林.供应链整体绩效的模糊综合评价[J].物流技术,2006,4:74-77.
[195]李石良.模糊综合评价在科技奖励中的应用[J].湖南大学硕士论文[D],2008,10.
[196]郑阿奇.Eclipse实用教程[M].北京:电子工业出版社,2009:3-15.