基于公理设计的精益制造系统的仿真设计研究
|
摘要
在整个企业流程里,制造过程只是其众多环节之一,但它是形成企业核心竞争力的最有力的武器。其它决定企业能否成功的竞争因素如价格、质量、产品上市时间、可靠性、产品和服务的柔性等,这些因素能达到什么程度主要取决于企业的制造系统的设计、控制以及管理实施,而现有的制造系统设计方法已经不能适应制造企业竞争和发展的需要。论文针对企业在应用精益生产理论中存在的误区以及当前工厂设计实践中存在的不足,提出了精益设计的概念。在市场竞争日益激烈、信息技术日趋成熟的大环境下,制造系统的精益设计是提高企业管理水平、改善企业竞争力的必然选择和趋势。
本文就基于公理设计理论的制造系统的设计框架所包括的三个方面进行了研究,其中,重点研究了精益制造系统的公理化设计过程、绩效评价以及控制策略的选择等关键性问题,主要内容概括如下:
首先,综述了现代设计理论与设计方法,对现代流行的设计理论与设计方法的基本思想与内涵进行了阐述,并分析了其各自的特点。
其次,分析和研究了基于公理设计的制造系统设计过程,并在此基础上,通过分析精益制造系统的技术体系,完成了精益制造系统的各系统参数的分解与映射过程,实现了精益制造系统的公理化设计。另外,为了实现精益制造系统系统的详细设计,还对实现精益制造系统设计的技术手段进行了研究。
第三,基于精益制造系统的信息控制模型,分析和研究了绩效评价与持续改善、功能需求以及制造系统设计的之间关系,在此基础上,通过归纳与演绎的科学方法,提出了精益制造系统的绩效评价指标体系,并建立了基于组合评价法的精益制造系统的绩效评价模型。
第四,分析了精益生产控制策略的研究现状,并在研究精益制造系统的经典控制策略的基础上,提出了精益制造系统的控制策略选择的定量模型。
最后,在公理设计指导下,运用精益制造系统设计的技术手段,通过仿真技术对A公司的制造系统进行了精益设计,分析结果表明,新设计的系统在库存水平、效率、在制品以及等待时间等方面都明显优于现在的制造系统,有效地解决了公司A目前存在的问题。
本文的研究将有助于提高制造系统设计的系统性与科学性,从而能够从制造系统的设计阶段就尽可能消除企业将来运作过程中可能发生的浪费根源,避免带有明显缺陷的设计方案被付诸实施。
The manufacturing process is only one of its many aspects in the entire business process, but it is the most powerful weapon of forming the core competitiveness. Other competitive factors on deciding the success, such as price, quality, time, reliability, flexibility of products and services and so on, depend largely on the design process and management implementation of enterprise manufacturing systems, while the the existing manufacturing system design approaches can not adapt to competition and development of manufacturing enterprises. In light of the mistakes within the application of lean production and anadequacies of plant design, this dissertation puts forward the concept and theoretical framework of lean design.With increasing competition in the market and increasingly sophisticated information technology environment, the lean design is the inevitable choice and trends of improving enterprise management competitiveness.
The dissertation mainly studies the three aspects of design framework of manufacturing system based on axiomatic design, and especially focuses on axiomatic design, performance evaluation and choice of control strategy for lean manufacturing system , etc. key issues.The main research contents of this dissertation are as following:
Firstly, this dissertation studies modern design methodology and design theory, explains the basic idea and content of the design methodology and design theory, and analyzes their own characteristics.
Secondly, this dissertation analyzes and studies the process of manufacturing system design based on axiomatic design. On this basis, this dissertation gains the decomposition and mapping process for system parameters of lean manufacturing system by analyzing the techniques of lean production system and their means of achieving itself, and achieves axiomatic design of lean manufacturing system. In addition, in order to achieve the detailed design for lean manufacturing system, this dissertation provides the techniques of lean manufacturing system design. Thirdly, based on information control model of lean manufacturing system,this dissertation analyzes the relationship between performance measurement and continuous improvement, functional requirements, as well as manufacturing system design respectively. Then dissertation puts forward performance evaluation index system of lean manufacturing system through the scientific methods of induction and deduction, and establishes the performance evaluation model of lean manufacturing system based on the combined evaluation methods.
Fourthly, the dissertation reviewes the status quo of lean production control strategy. The dissertation studies the classic control strategy of lean manufacturing system and puts forward selection model of lean production control policy under different demand situations for lean manufacturing system.
Finally, the dissertation implements the design of lean manufacturing system for Company A through the techniques of lean manufacturing system design and simulation technology. The results shows that the new system is much better than the orginal system on the inventory levels, efficiency, WIP and waiting times, and so on, and resolves the current problem of company A.
This dissertation is of great benefit to improve the manufacturing system design systematicly and scientificly, eliminates the root causes of business waste that may cccur in the future as much as possible from the manufacturing system design stage, and avoids implemention of the design with an obvious flaw.
本文就基于公理设计理论的制造系统的设计框架所包括的三个方面进行了研究,其中,重点研究了精益制造系统的公理化设计过程、绩效评价以及控制策略的选择等关键性问题,主要内容概括如下:
首先,综述了现代设计理论与设计方法,对现代流行的设计理论与设计方法的基本思想与内涵进行了阐述,并分析了其各自的特点。
其次,分析和研究了基于公理设计的制造系统设计过程,并在此基础上,通过分析精益制造系统的技术体系,完成了精益制造系统的各系统参数的分解与映射过程,实现了精益制造系统的公理化设计。另外,为了实现精益制造系统系统的详细设计,还对实现精益制造系统设计的技术手段进行了研究。
第三,基于精益制造系统的信息控制模型,分析和研究了绩效评价与持续改善、功能需求以及制造系统设计的之间关系,在此基础上,通过归纳与演绎的科学方法,提出了精益制造系统的绩效评价指标体系,并建立了基于组合评价法的精益制造系统的绩效评价模型。
第四,分析了精益生产控制策略的研究现状,并在研究精益制造系统的经典控制策略的基础上,提出了精益制造系统的控制策略选择的定量模型。
最后,在公理设计指导下,运用精益制造系统设计的技术手段,通过仿真技术对A公司的制造系统进行了精益设计,分析结果表明,新设计的系统在库存水平、效率、在制品以及等待时间等方面都明显优于现在的制造系统,有效地解决了公司A目前存在的问题。
本文的研究将有助于提高制造系统设计的系统性与科学性,从而能够从制造系统的设计阶段就尽可能消除企业将来运作过程中可能发生的浪费根源,避免带有明显缺陷的设计方案被付诸实施。
The manufacturing process is only one of its many aspects in the entire business process, but it is the most powerful weapon of forming the core competitiveness. Other competitive factors on deciding the success, such as price, quality, time, reliability, flexibility of products and services and so on, depend largely on the design process and management implementation of enterprise manufacturing systems, while the the existing manufacturing system design approaches can not adapt to competition and development of manufacturing enterprises. In light of the mistakes within the application of lean production and anadequacies of plant design, this dissertation puts forward the concept and theoretical framework of lean design.With increasing competition in the market and increasingly sophisticated information technology environment, the lean design is the inevitable choice and trends of improving enterprise management competitiveness.
The dissertation mainly studies the three aspects of design framework of manufacturing system based on axiomatic design, and especially focuses on axiomatic design, performance evaluation and choice of control strategy for lean manufacturing system , etc. key issues.The main research contents of this dissertation are as following:
Firstly, this dissertation studies modern design methodology and design theory, explains the basic idea and content of the design methodology and design theory, and analyzes their own characteristics.
Secondly, this dissertation analyzes and studies the process of manufacturing system design based on axiomatic design. On this basis, this dissertation gains the decomposition and mapping process for system parameters of lean manufacturing system by analyzing the techniques of lean production system and their means of achieving itself, and achieves axiomatic design of lean manufacturing system. In addition, in order to achieve the detailed design for lean manufacturing system, this dissertation provides the techniques of lean manufacturing system design. Thirdly, based on information control model of lean manufacturing system,this dissertation analyzes the relationship between performance measurement and continuous improvement, functional requirements, as well as manufacturing system design respectively. Then dissertation puts forward performance evaluation index system of lean manufacturing system through the scientific methods of induction and deduction, and establishes the performance evaluation model of lean manufacturing system based on the combined evaluation methods.
Fourthly, the dissertation reviewes the status quo of lean production control strategy. The dissertation studies the classic control strategy of lean manufacturing system and puts forward selection model of lean production control policy under different demand situations for lean manufacturing system.
Finally, the dissertation implements the design of lean manufacturing system for Company A through the techniques of lean manufacturing system design and simulation technology. The results shows that the new system is much better than the orginal system on the inventory levels, efficiency, WIP and waiting times, and so on, and resolves the current problem of company A.
This dissertation is of great benefit to improve the manufacturing system design systematicly and scientificly, eliminates the root causes of business waste that may cccur in the future as much as possible from the manufacturing system design stage, and avoids implemention of the design with an obvious flaw.
引文
[1]王家善.设施规划与设计.工业工程,1998,1(1):11-14
[2] James A Thompkins ,John A White.Facilities Planning.New York :John Wiler & Sons,1984
[3]王家善,吴清一,周佳平.设施规划与设计.北京:机械工业出版社,1995
[4]理查德·缪瑟,李·海尔斯.系统化工业设施规划.北京:机械工业出版社,1991
[5]刘正刚等.设施布置设计的回顾、现状与展望.江苏理工大学学报,2001,(2):74-75
[6]陈军.工业设施系统规划:[硕士学位论文].西安:西安建筑科技大学,2001
[7] Qi Ershi,Wang Yongsheng.Enterprise Planning of Total Life Cycle Lean Thinking.Proceedings of 2008 IEEE International Conference on Service Operations and Logistics, and Informatics,IEEE/SOLI 2008,v 2,p1712-1717
[8]同[7]
[9]齐二石,张洪亮.工厂精益设计的框架及实施方法.科学学与科学技术管理,2009,(9):167-171
[10] Wei Xie.A branch-and-bound algorithm for the continuous facility layout problem.Computers and Chemical Engineering,2008,(32):1016-1028
[11] R. Tavakkoli-Moghaddam,N. Javadian.Design of a facility layout problem in cellularmanufacturing systems with stochastic demands.Applied Mathematics and Computation,2007,(184):721–728
[12] Alan R. McKendall Jr,Artak Hakobyan.Heuristics for the dynamic facility layout problem with unequal-area departments . European Journal of Operational Research,2010,(201):171–182
[13] Lou Y. Liang,Wen C. Chao.The strategies of tabu search technique for facility layout optimization.Automation in Construction,2008,17:657–669
[14] Kyu-Yeul Leea,Myung-Il Rohb.An improved genetic algorithm for multi-floor facility layout problems having inner structure walls and passages.Computers & Operations Research,2005,(32):879–899
[15]邱枫.基于单亲遗传算法的设备布局问题研究:[硕士学位论文].天津:天津大学,2007
[16]陈冰.基于绿色制造的XX车间设施规划研究:[硕士学位论文].武汉:武汉科技大学,2008
[17]奚文.面向机械制造系统的设施布置与优化模型设计:[硕士学位论文].沈阳:辽宁工程技术大学,2005
[18]曹振新,朱云龙等.制造系统的设备布局方法.辽宁工程技术大学学报,2005,24(3):413-416.
[19] Fantahun M. Defersha.A comprehensive mathematical model for the design of cellular manufacturing systems.Int. J. Production Economics,2006,(103):767-783
[20] N. Safaei,M. Saidi-Mehrabad.A hybrid simulated annealing for solving an extended model of dynamic cellular manufacturing system.European Journal of Operational Research,2008,(185):563–592
[21] Steve Ah kioon.Integrated cellular manufacturing systems design with production planning and dynamic system reconfiguration.European Journal of Operational Research,2009,(192):414–428
[22] Poornachandra Rao Panchalavarapu . Design of cellular manufacturing systemswith assembly considerations.Computers & Industrial Engineering,2005,(48):449–469
[23] K. Dasa,R.S. Lashkaria.Reliability consideration in the design and analysis of cellular manufacturing systems.Production Economics,2007,105:243–262
[24]杨建军.单元制造的设计模式研究:[硕士学位论文].上海:上海交通大学,2007
[25]冯秋红,赵红兵.系统科学方法在工厂设计中的应用.建筑与结构设计,2007,(8):1-3
[26]张维存.基于Agent的单元制造系统设计:[硕士学位论文].天津:河北工业大学,2002
[27] Xiaodan Wu,Chao-Hsien Chu.A genetic algorithm for cellular manufacturing design and layout. European Journal of Operational Research,2007,(181):156-167
[28] Kyu-Yeul Leea,Seong-Nam Hanb.An improved genetic algorithm for facility layout problems having inner structure walls and passages.Computers & Operations Research,2003,(30):117–138
[29] L?′dia Lampreia Lourenco.An improved genetic heuristic to support the design of flexible manufacturing systems.Computers & Industrial Engineering,2004,(46):141–157
[30] Sule Itir Satoglu , Nallan C. Suresh. A goal-programming approach for designof hybrid cellular manufacturing systems in dual resource constrained environments. Computers & Industrial Engineering,2009,(56):560–575
[31]龚全胜.基于遗传算法的制造系统虚拟设备布局设计:[硕士学位论文].武汉:华中科技大学,2004
[32] Francois Geiskopf,Virginie Goepp. A problem driven approach to interface manufacturing strategy analysis and manufacturing system design.Computers & Industrial Engineering,2009,(57):355–367
[33] L. Luong,J. He.A decision support system for cellular manufacturing system design.Computers and Industrial Engineering,2002,(42):457-470
[34] Dong Liang,Wilbert E. Wilhelm. Decomposition schemes and acceleration techniques in application to production–assembly–distribution system design. Computers & Operations Research,2008,(35):4010– 4026
[35]邓修权,齐二石.精益生产方式拉动生产系统设计程序的研究.工业工程与管理,2000,(5):28-31
[36] Deng Jian-juna,Huang Jian-yu.Design of integrated manufacturing system of coal preparation plant based on multi-agent. Procedia Earth and Planetary Science,2009,(1):713–717
[37]徐丽.工厂设施规划中的物流分析与仿真研究:[硕士学位论文].长春:吉林大学,2007
[38]牛少芬,曲文卿等.航空制造系统的设计、评价及其仿真.航空航天技术,2008,(18):94-98
[39]齐继阳,竺长安.基于Profibus_DP的柔性制造系统的设计.组合机床与自动化加工技术,2007,(9):9-11
[40]郝静,何涛等.基于CSCW的协同式工厂设计系统的研究.工程图学学报,2004,(4):41-45
[41]蔡宗琰.计算机辅助可重构制造系统设计的概念研究:[博士学位论文].西安:西北工业大学,2003
[42]袁泉,李炳益.三维工厂设计中结构设计流程的探讨.武汉大学学报(工学版),2007,(10):1-4
[43]何家勇.支持设计面向经营的制造系统设计:[硕士学位论文].重庆:重庆大学,2002
[44]檀润华.发明问题解决理论.北京:科学出版社,2004
[45] CAVALLUCCL D,KHOMEN KO N,MOREL C.Towards inventive design through management of cont radictions.Proceedings of the 15th International CIRP Design Seminar,Shanghai,China,2005,p271-280
[46] TAN Runhua . Process of two stages analogy based design employing TRIZ.International Journal of Product Development,2007,112(4):109-121
[47]王隆太,吉卫喜.制造系统工程.北京:机械工业出版社,2008
[48]梁军,赵勇.系统工程概论.北京:化学工业出版社,2005
[49]严隽薇.现代集成制造系统概论:理念、方法、技术、设计与实施.北京:清华大学出版社,2004
[50]肖人彬,蔡池兰,刘勇.公理设计的研究现状与问题分析.机械工程学报,2008,44(12):1-12
[51]程贤福,肖人彬.基于公理设计的优化设计方法与应用.农业机械学报,2007,38(3):233-239
[52] SU H N P.Axiomatic design:advances and applications.New York:Oxford University Press,2001
[53]李国忠.现代设计.武汉:中国地质大学出版社,2006
[54]顾永波.德国工业设计思想初探:[硕士学位论文].南京:南京艺术学院,2007
[55]邵佳俊.质量功能展开.北京:机械工业出版社,2004
[56]龚京忠,李国喜,邱静.基于功能-行为-结构的产品概念模块设计研究.计算机集成制造系统- CIMS,2006,12 (12):1921-1927
[57]同淑荣,彭炎午.制造质量控制与质量功能展开的集成模型.西北工业大学学报,2001,19(1):122-125
[58]陈以增,唐加福等.基于质量屋的优化模型.中国机械工程,2003,14(11):967-970
[59]翟丽.质量功能展开技术及其应用综述,管理工程学报,2000,(1):52-60
[60] Ansari A , Modarress B . Quality Function Deployment : The Role of Suppliers.International Journal of Purchasing and Materials Management,1994,30(4):28-35
[61]张帅.复合功能产品概念设计建模理论及自动化求解方法研究:[博士学位论文].杭州:浙江大学,2005
[62]张建明.机械产品概念设计的若干方法研究:[博士学位论文].大连:大连理工大学,2006
[63] Peterson L,Roscoe T.The design principles of Planet Lab.ACM SIGOPS Operating Systems Review,2006,(40):11-16
[64]宋慧军,林志航.产品概念设计方案生成模型.计算机集成制造系统- CIMS,2002,8(5):342-346
[65]廖小云,张根保,雷闻宇等.基于特征技术的机械产品并行设计系统研究.重庆大学学报(自然科学版),1997,20(5):72-77
[66]张凤军,刘华明,任秉根.面向CAD/CAPP并行设计的特征模型.机械研究与应用,2000,3(1):50-52
[67]姜雪峰,邓家禔.基于并行工程的产品概念.计算机辅助工程,1998,(4): 21-25
[68] G. Brunetti,B. Golob.A feature-based approach towards an integrated product model including conceptual design information.Computer Aided Design,2000,32(9):877-887
[69]张学玲.基于广义模块化设计的机械结构静、动态特性分析及优化设计:[博士学位论文].天津:天津大学,2004
[70]陈新,陈新度,秦叶等.机械结构动态设计若干关键技术.中国机械工程,1997,8(5):104-108
[71]高隽.智能信息处理方法导论.北京:机械工业出版社,2004
[72]陈荣秋,崔南方等.工程迭代设计中产品族开发过程的研究与建模.计算机集成制造系统,2007,13(12):2373-2381
[73] SMITH R P,EPPINGER S D.Identifying controlling features of engineering design iteration.Management Science,1997,43(3):276-293
[74]吕超,李爱平,徐立云.基于权重有向图的可重构制造系统配置决策模型研究.中国机械工程,2008,19(15):1821-1825
[75]魏延辉,赵杰,蔡鹤皋.基于任务的可重构产品机器人构形确定方法.机械工程学报,2006,42(5):93-97
[76]刘春涛,林志航.基于响应面和支持向量机的产品健壮设计方法.计算机辅助设计与图形学学报,2006,18(8):1174-1178
[77]胡耀华.广义预测控制的鲁棒性分析.大连海事大学学报,2002,2(1):75-79
[78]张兴会,陈增强,袁著社.基于内模结构的GCP鲁棒性改进分析.控制与决策,2005,9(5):542-545
[79]谢友柏等译.公理设计——发展与应用.北京:机械工业出版社,2004
[80] David S. Cochran,Jorge F. Arinez,James W. Duda.A Decomposition Approach for Manufacturing System Design . Journal of Manufacturing Systems,2002,(6):371-390
[81]同[79]
[82] O. Kulaka.M.B. Durmusoglua,S. Tufekci.A complete cellular manufacturing system design methodology based on axiomatic design principles.Computers& Industrial Engineering,2005,(48):765–787
[83] David S. Cochran,Jorge F. Arinez,James W. Duda.A Decomposition Approach for Manufacturing System Design . Journal of Manufacturing Systems,2002,(6):371-390
[84] M. Bulent Durmusoglua,Osman Kulakb.A methodology for the design of office cells using axiomatic design principles.Omega,2008,(36):633-652
[85] P. Gu,B. Lu,S. Spiewak.A New Approach for Robust Design of Mechanical Systems.CIRP Annals,2004,53(1) :1-5
[86] Mahmoud Houshmanda,Bizhan Jamshidnezhad.An extended model of design process of lean production systems by means of process variables.Robotics and Computer-Integrated Manufacturing,2006,(22):1–16
[87] David S. Cochran,Daniel C. Dobbs.Evaluating Manufacturing System Design and Performance Using the Manufacturing System Design Decomposition Approach.Journal of Manufacturing Systems,2002,20(6):390-405
[88] Osman Kulak,Cengiz Kahraman.Multi-attribute comparison of advanced manufacturing systems using fuzzy vs. crisp axiomatic design approach.Int. J. Production Economics,2005,(95):415–424
[89]锁小红,刘战强,杨云.公理设计下基于功能的布局设计可行性研究.工具技术,2008,(42):27-32
[90]林晓鹰,侯亮,韩东辉等.基于公理化理论的自动装配与焊接系统设计.厦门大学学报(自然科学版),2007,46(3):134-140
[91]穆瑞.基于公理化设计的质量功能配置研究:[硕士学位论文].哈尔滨:哈尔滨工程大学,2007
[92]朱龙英,朱如鹏,刘正埙.基于公理化设计理论的并行设计决策研究.南京理工大学学报,2004,28(6):163-168
[93]陈耀华,樊树海,丁燕艳等.基于公理设计的可重构制造系统设计.工业工程与管理,2009,14(5):140-146
[94]林晓鹰.基于公理设计的摩托车车把集成装焊系统设计与仿真:[硕士学位论文].厦门:厦门大学,2007
[95]潘显钟,李建勇,查建中.基于公理设计理论的FMS优化配置研究.工程设计学报,2006,13(4):144-150
[96]苏颖,于明,张伯鹏.基于信息的质量功能配置公理化研究.计算机集成制造系统,2002,8(12):140-146
[97]詹姆斯·P·沃麦克,(英)丹尼尔·T·琼斯,(美)丹尼尔·鲁斯.改变世界的机器(沈希瑾等译).北京:商务印书馆,2003
[98]詹姆斯·P·沃麦克,(英)丹尼尔·T·琼斯.精益思想——消灭浪费,创造财富(沈希瑾,张文杰等译).北京:商务印书馆,2005
[99]王玖河,周荣辅.我国制造业推行精益生产方式的对策研究.燕山大学学报(哲学社会科学版),2001,2(l):88-94
[100]门田安弘.丰田式生产体系.台北:中国生产力中心,1987
[101]王浩然,曾凤章.精益生产方式在我国制造业推广应用对策研究.北京轻工业学院学报,2001,19(2)57-62
[102]魏大鹏.准时化生产方式的技术支撑体系.工业工程与管理,1998,3(2):30-33
[103] S. Kotani.Optimal method for changing the number of kanbans in the e-Kanban system and its applications.International Journal of Production Research,2008,45(24):5789–5809
[104]杨光薰.九十年代世纪级制造技术—精良生产.中国机械工程,1993,4(2):32-35
[105]杨光薰,倪伟英,韩晓露.从精益生产走向大规模定制.生产成组技术与生产现代化,2000,(l):16-20
[106]肖智军,党新民,刘胜军.精益生产方式JIT.深圳:海天出版社,2002
[107]杰弗里·莱克.丰田汽车案例—精益制造的14项法则(李芳龄译).北京:中国财政经济出版社,2005
[108]傅雷克·伯勒.金矿:精益管理,挖掘利润(赵克强译).北京:机械工业出版社,2006
[109]詹姆斯·P·沃迈克.精益思想—消灭浪费,创造财富(沈希瑾等译).北京:商务印书馆,2003
[110]彼得·德鲁克.卓有成效地管理者(徐是祥译).北京:机械工业出版社,2005
[111]约翰·德鲁,布莱尔·麦卡勒姆.精益之道(吕奕欣等译).北京:机械工业出版社,2007
[112]布鲁斯·A·汉德森.精益企业:让精益思想贯穿企业的每一个角落(李超译),北京:企业管理出版社,2005
[113] G·萨尔文迪,现代工业工程手册.上海:机械工业出版杜,1987
[114]汪应洛,袁治平.工业工程导论.北京:中国科学技术出版社,2001
[115]赵景华.现代工业工程.北京:冶金工业出版社,1996
[116]粟滋,陈煦,王仁康.工业工程原理与应用.北京:机械工业出版社,1997
[117]蔡启明,张庆,庄品.基础工业工程.北京:科学出版社,2007
[118]张正祥.工业工程基础.高等教育出版社,2006
[119]易树平,郭伏.基础工业工程.北京:机械工业出版社,2007
[120]王恩亮.工业工程手册.北京:机械工业出版社,2006
[121]范中志,张树武,孙义敏.基础工业工程.北京:机械工业出版社,1999
[122]郝晓明.汽车后桥作业车间仿真技术研究与应用:[硕士学位论文].南京:南京理工大学,2009
[123]王玉荣.瓶颈管理.北京:机械工业出版社,2002
[124] Goldratt,目标(齐若兰).北京:电子工业出版社,2006
[125] Goldratt,决不是靠运气(周伶利).北京:电子工业出版社,2006
[126] FawazA Abdulmalek,Jayant Rajgopal.Analyzing the benefits of lean manufacturing and value stream mapp ing via simulation:a p rocess sector case study.International Journoal of Production Economics,2007,5 (10):223-236
[127]蔺宇.TPS的过程成本控制与评价方法研究:[博士学位论文].天津:天津大学,2007
[128]迟国泰,郑杏果,杨中原.基于主成分分析的国有商业银行竞争力评价模.管理学报,2009,6(2):228-233
[129]孙宏才,徐关尧,田平.用网络层次分析法评估应急桥梁设计方案,系统工程理论与实践.2007,3(3):63-70
[130]刘晓华,王忠辉,王艳明.企业统计能力模糊综合评价方法及应用.2009,(24):169-170
[131]王文圣,金菊良,李跃清.基于集对分析的自然灾害危险度综合评价研究.四川大学学报,2009,41(6):6-12
[132]钱吴永,党耀国,熊萍萍等.基于灰色关联定权的TOPSIS法及其应用.系统工程,2007,28(8):124-126
[133]俞集辉,韦俊涛,彭光金等.基于人工神经网络的参数灵敏度分析模型.计算机应用研究,2009,26(6):2279-2282
[134]任宏,祝连波.基于组合权法的建筑施工企业信息化水平的多层次评价模型.系统工程理论与实践,2008,(2):82-89
[135]劳兰珺,张志刚.中国开放式基金业绩排序稳定性的Kendall检验.系统工程,2007,25(1):118-122
[136]熊燕,许晓东.Borda评分法与认可票法的联系与比较.华中科技大学学报,2005,(5):132-134
[137]范超.一种新的组合评价方法.技术经济与管理研究,2009,(2)14-16
[138]王刚,张成洪,黄丽华.基于方法集的企业知识管理评价研究.科技进步与对策,2009,26(4):115-119
[139]庞南生,张洪青.一种基于Spearman秩相关系数与熵的多属性决策方法.运筹与管理,2003,12(5):52-56
[140]王时龙,程畅栋,任亨斌等.多品种小批量环境下的改进型生产系统.计算机集成制造系统,2009,15(9):1131-1136
[141]康杰.精益生产方式中的控制策略的研究与实现:[博士学位论文].成都:西南交通大学,2004
[142] DaviserWJ,ThompsonSD.Production Planning and control hierarehy using a generic controller.IIE Transaction,1993,25(4):26-45
[143] Christenson K R,Dogan C A.A simulation generator for dual-card Kanban controlled flowshops.International Joumal of Produetion Researeh,1995,33(9):2615-2631
[144] Buzacott J A,Shantikurnar J G.A general approach for coordinating Production in multi-cell manufacturing systems.Production and Operations Management,1992,(l):34-52
[145] Bonvik A M . A comparison of production-line control mechanisms.Intemational Joumal of Production Researeh,1997,35(3):789-804
[146] Jose M.Framinan,Pedro L.Gonzo1ez.The CONWIPP reduction control system:review and researeh issues.Produetion Planning&Control,2003,14(3):255-265
[147] KatsuhikoTakahashi,Nobuto Nakamura.Comparing reactive Kanban and reactive CONWIP.Produetion Planning&control,2002,13(8):702-714
[148] (德)Hans Peter Wiendahl著,肖田元等译.面向负荷的生产控制-理论基础、方法与实践.北京:清华大学出版社,1999
[149]康杰.基于生产特性的精益生产控制策略研究.西南大学学报,2007,29(5):133-136
[150]汪定伟.MRPⅡ与JIT结合的生产管理方法.北京:科学出版社,1996
[151]米歇尔·罗伯特,伯纳德·拉辛.精益战略(江林等译).北京:机械工业出版社,2002
[152]邓修权,齐二石.精益生产方式拉动生产系统设计程序的研究.工业工程与管理,2000,(5):25-32
[153]缪周,徐克林,李振飞.基于价值流图的生产线再设计.工业工程,2009,12(5):115-119
[154]季香君,陈琦,吉玉波.价值流理论指导产品的精益生产模式研究.价值工程,2005,24(5):28-29
[155]王新荣,范玉青.基于精益生产的企业价值流的研究.制造业自动化,2002,24(8):28-30
[156]张东汉,孙小明.价值流技术在企业业务流程重组中的应用.工业工程与管理,2005,10(5):593-97
[157] KeltonW. David,Sadowski Randall P,Sturrock David T.仿真使用Arena软件(3版).北京:机械工业出版社,2007
[2] James A Thompkins ,John A White.Facilities Planning.New York :John Wiler & Sons,1984
[3]王家善,吴清一,周佳平.设施规划与设计.北京:机械工业出版社,1995
[4]理查德·缪瑟,李·海尔斯.系统化工业设施规划.北京:机械工业出版社,1991
[5]刘正刚等.设施布置设计的回顾、现状与展望.江苏理工大学学报,2001,(2):74-75
[6]陈军.工业设施系统规划:[硕士学位论文].西安:西安建筑科技大学,2001
[7] Qi Ershi,Wang Yongsheng.Enterprise Planning of Total Life Cycle Lean Thinking.Proceedings of 2008 IEEE International Conference on Service Operations and Logistics, and Informatics,IEEE/SOLI 2008,v 2,p1712-1717
[8]同[7]
[9]齐二石,张洪亮.工厂精益设计的框架及实施方法.科学学与科学技术管理,2009,(9):167-171
[10] Wei Xie.A branch-and-bound algorithm for the continuous facility layout problem.Computers and Chemical Engineering,2008,(32):1016-1028
[11] R. Tavakkoli-Moghaddam,N. Javadian.Design of a facility layout problem in cellularmanufacturing systems with stochastic demands.Applied Mathematics and Computation,2007,(184):721–728
[12] Alan R. McKendall Jr,Artak Hakobyan.Heuristics for the dynamic facility layout problem with unequal-area departments . European Journal of Operational Research,2010,(201):171–182
[13] Lou Y. Liang,Wen C. Chao.The strategies of tabu search technique for facility layout optimization.Automation in Construction,2008,17:657–669
[14] Kyu-Yeul Leea,Myung-Il Rohb.An improved genetic algorithm for multi-floor facility layout problems having inner structure walls and passages.Computers & Operations Research,2005,(32):879–899
[15]邱枫.基于单亲遗传算法的设备布局问题研究:[硕士学位论文].天津:天津大学,2007
[16]陈冰.基于绿色制造的XX车间设施规划研究:[硕士学位论文].武汉:武汉科技大学,2008
[17]奚文.面向机械制造系统的设施布置与优化模型设计:[硕士学位论文].沈阳:辽宁工程技术大学,2005
[18]曹振新,朱云龙等.制造系统的设备布局方法.辽宁工程技术大学学报,2005,24(3):413-416.
[19] Fantahun M. Defersha.A comprehensive mathematical model for the design of cellular manufacturing systems.Int. J. Production Economics,2006,(103):767-783
[20] N. Safaei,M. Saidi-Mehrabad.A hybrid simulated annealing for solving an extended model of dynamic cellular manufacturing system.European Journal of Operational Research,2008,(185):563–592
[21] Steve Ah kioon.Integrated cellular manufacturing systems design with production planning and dynamic system reconfiguration.European Journal of Operational Research,2009,(192):414–428
[22] Poornachandra Rao Panchalavarapu . Design of cellular manufacturing systemswith assembly considerations.Computers & Industrial Engineering,2005,(48):449–469
[23] K. Dasa,R.S. Lashkaria.Reliability consideration in the design and analysis of cellular manufacturing systems.Production Economics,2007,105:243–262
[24]杨建军.单元制造的设计模式研究:[硕士学位论文].上海:上海交通大学,2007
[25]冯秋红,赵红兵.系统科学方法在工厂设计中的应用.建筑与结构设计,2007,(8):1-3
[26]张维存.基于Agent的单元制造系统设计:[硕士学位论文].天津:河北工业大学,2002
[27] Xiaodan Wu,Chao-Hsien Chu.A genetic algorithm for cellular manufacturing design and layout. European Journal of Operational Research,2007,(181):156-167
[28] Kyu-Yeul Leea,Seong-Nam Hanb.An improved genetic algorithm for facility layout problems having inner structure walls and passages.Computers & Operations Research,2003,(30):117–138
[29] L?′dia Lampreia Lourenco.An improved genetic heuristic to support the design of flexible manufacturing systems.Computers & Industrial Engineering,2004,(46):141–157
[30] Sule Itir Satoglu , Nallan C. Suresh. A goal-programming approach for designof hybrid cellular manufacturing systems in dual resource constrained environments. Computers & Industrial Engineering,2009,(56):560–575
[31]龚全胜.基于遗传算法的制造系统虚拟设备布局设计:[硕士学位论文].武汉:华中科技大学,2004
[32] Francois Geiskopf,Virginie Goepp. A problem driven approach to interface manufacturing strategy analysis and manufacturing system design.Computers & Industrial Engineering,2009,(57):355–367
[33] L. Luong,J. He.A decision support system for cellular manufacturing system design.Computers and Industrial Engineering,2002,(42):457-470
[34] Dong Liang,Wilbert E. Wilhelm. Decomposition schemes and acceleration techniques in application to production–assembly–distribution system design. Computers & Operations Research,2008,(35):4010– 4026
[35]邓修权,齐二石.精益生产方式拉动生产系统设计程序的研究.工业工程与管理,2000,(5):28-31
[36] Deng Jian-juna,Huang Jian-yu.Design of integrated manufacturing system of coal preparation plant based on multi-agent. Procedia Earth and Planetary Science,2009,(1):713–717
[37]徐丽.工厂设施规划中的物流分析与仿真研究:[硕士学位论文].长春:吉林大学,2007
[38]牛少芬,曲文卿等.航空制造系统的设计、评价及其仿真.航空航天技术,2008,(18):94-98
[39]齐继阳,竺长安.基于Profibus_DP的柔性制造系统的设计.组合机床与自动化加工技术,2007,(9):9-11
[40]郝静,何涛等.基于CSCW的协同式工厂设计系统的研究.工程图学学报,2004,(4):41-45
[41]蔡宗琰.计算机辅助可重构制造系统设计的概念研究:[博士学位论文].西安:西北工业大学,2003
[42]袁泉,李炳益.三维工厂设计中结构设计流程的探讨.武汉大学学报(工学版),2007,(10):1-4
[43]何家勇.支持设计面向经营的制造系统设计:[硕士学位论文].重庆:重庆大学,2002
[44]檀润华.发明问题解决理论.北京:科学出版社,2004
[45] CAVALLUCCL D,KHOMEN KO N,MOREL C.Towards inventive design through management of cont radictions.Proceedings of the 15th International CIRP Design Seminar,Shanghai,China,2005,p271-280
[46] TAN Runhua . Process of two stages analogy based design employing TRIZ.International Journal of Product Development,2007,112(4):109-121
[47]王隆太,吉卫喜.制造系统工程.北京:机械工业出版社,2008
[48]梁军,赵勇.系统工程概论.北京:化学工业出版社,2005
[49]严隽薇.现代集成制造系统概论:理念、方法、技术、设计与实施.北京:清华大学出版社,2004
[50]肖人彬,蔡池兰,刘勇.公理设计的研究现状与问题分析.机械工程学报,2008,44(12):1-12
[51]程贤福,肖人彬.基于公理设计的优化设计方法与应用.农业机械学报,2007,38(3):233-239
[52] SU H N P.Axiomatic design:advances and applications.New York:Oxford University Press,2001
[53]李国忠.现代设计.武汉:中国地质大学出版社,2006
[54]顾永波.德国工业设计思想初探:[硕士学位论文].南京:南京艺术学院,2007
[55]邵佳俊.质量功能展开.北京:机械工业出版社,2004
[56]龚京忠,李国喜,邱静.基于功能-行为-结构的产品概念模块设计研究.计算机集成制造系统- CIMS,2006,12 (12):1921-1927
[57]同淑荣,彭炎午.制造质量控制与质量功能展开的集成模型.西北工业大学学报,2001,19(1):122-125
[58]陈以增,唐加福等.基于质量屋的优化模型.中国机械工程,2003,14(11):967-970
[59]翟丽.质量功能展开技术及其应用综述,管理工程学报,2000,(1):52-60
[60] Ansari A , Modarress B . Quality Function Deployment : The Role of Suppliers.International Journal of Purchasing and Materials Management,1994,30(4):28-35
[61]张帅.复合功能产品概念设计建模理论及自动化求解方法研究:[博士学位论文].杭州:浙江大学,2005
[62]张建明.机械产品概念设计的若干方法研究:[博士学位论文].大连:大连理工大学,2006
[63] Peterson L,Roscoe T.The design principles of Planet Lab.ACM SIGOPS Operating Systems Review,2006,(40):11-16
[64]宋慧军,林志航.产品概念设计方案生成模型.计算机集成制造系统- CIMS,2002,8(5):342-346
[65]廖小云,张根保,雷闻宇等.基于特征技术的机械产品并行设计系统研究.重庆大学学报(自然科学版),1997,20(5):72-77
[66]张凤军,刘华明,任秉根.面向CAD/CAPP并行设计的特征模型.机械研究与应用,2000,3(1):50-52
[67]姜雪峰,邓家禔.基于并行工程的产品概念.计算机辅助工程,1998,(4): 21-25
[68] G. Brunetti,B. Golob.A feature-based approach towards an integrated product model including conceptual design information.Computer Aided Design,2000,32(9):877-887
[69]张学玲.基于广义模块化设计的机械结构静、动态特性分析及优化设计:[博士学位论文].天津:天津大学,2004
[70]陈新,陈新度,秦叶等.机械结构动态设计若干关键技术.中国机械工程,1997,8(5):104-108
[71]高隽.智能信息处理方法导论.北京:机械工业出版社,2004
[72]陈荣秋,崔南方等.工程迭代设计中产品族开发过程的研究与建模.计算机集成制造系统,2007,13(12):2373-2381
[73] SMITH R P,EPPINGER S D.Identifying controlling features of engineering design iteration.Management Science,1997,43(3):276-293
[74]吕超,李爱平,徐立云.基于权重有向图的可重构制造系统配置决策模型研究.中国机械工程,2008,19(15):1821-1825
[75]魏延辉,赵杰,蔡鹤皋.基于任务的可重构产品机器人构形确定方法.机械工程学报,2006,42(5):93-97
[76]刘春涛,林志航.基于响应面和支持向量机的产品健壮设计方法.计算机辅助设计与图形学学报,2006,18(8):1174-1178
[77]胡耀华.广义预测控制的鲁棒性分析.大连海事大学学报,2002,2(1):75-79
[78]张兴会,陈增强,袁著社.基于内模结构的GCP鲁棒性改进分析.控制与决策,2005,9(5):542-545
[79]谢友柏等译.公理设计——发展与应用.北京:机械工业出版社,2004
[80] David S. Cochran,Jorge F. Arinez,James W. Duda.A Decomposition Approach for Manufacturing System Design . Journal of Manufacturing Systems,2002,(6):371-390
[81]同[79]
[82] O. Kulaka.M.B. Durmusoglua,S. Tufekci.A complete cellular manufacturing system design methodology based on axiomatic design principles.Computers& Industrial Engineering,2005,(48):765–787
[83] David S. Cochran,Jorge F. Arinez,James W. Duda.A Decomposition Approach for Manufacturing System Design . Journal of Manufacturing Systems,2002,(6):371-390
[84] M. Bulent Durmusoglua,Osman Kulakb.A methodology for the design of office cells using axiomatic design principles.Omega,2008,(36):633-652
[85] P. Gu,B. Lu,S. Spiewak.A New Approach for Robust Design of Mechanical Systems.CIRP Annals,2004,53(1) :1-5
[86] Mahmoud Houshmanda,Bizhan Jamshidnezhad.An extended model of design process of lean production systems by means of process variables.Robotics and Computer-Integrated Manufacturing,2006,(22):1–16
[87] David S. Cochran,Daniel C. Dobbs.Evaluating Manufacturing System Design and Performance Using the Manufacturing System Design Decomposition Approach.Journal of Manufacturing Systems,2002,20(6):390-405
[88] Osman Kulak,Cengiz Kahraman.Multi-attribute comparison of advanced manufacturing systems using fuzzy vs. crisp axiomatic design approach.Int. J. Production Economics,2005,(95):415–424
[89]锁小红,刘战强,杨云.公理设计下基于功能的布局设计可行性研究.工具技术,2008,(42):27-32
[90]林晓鹰,侯亮,韩东辉等.基于公理化理论的自动装配与焊接系统设计.厦门大学学报(自然科学版),2007,46(3):134-140
[91]穆瑞.基于公理化设计的质量功能配置研究:[硕士学位论文].哈尔滨:哈尔滨工程大学,2007
[92]朱龙英,朱如鹏,刘正埙.基于公理化设计理论的并行设计决策研究.南京理工大学学报,2004,28(6):163-168
[93]陈耀华,樊树海,丁燕艳等.基于公理设计的可重构制造系统设计.工业工程与管理,2009,14(5):140-146
[94]林晓鹰.基于公理设计的摩托车车把集成装焊系统设计与仿真:[硕士学位论文].厦门:厦门大学,2007
[95]潘显钟,李建勇,查建中.基于公理设计理论的FMS优化配置研究.工程设计学报,2006,13(4):144-150
[96]苏颖,于明,张伯鹏.基于信息的质量功能配置公理化研究.计算机集成制造系统,2002,8(12):140-146
[97]詹姆斯·P·沃麦克,(英)丹尼尔·T·琼斯,(美)丹尼尔·鲁斯.改变世界的机器(沈希瑾等译).北京:商务印书馆,2003
[98]詹姆斯·P·沃麦克,(英)丹尼尔·T·琼斯.精益思想——消灭浪费,创造财富(沈希瑾,张文杰等译).北京:商务印书馆,2005
[99]王玖河,周荣辅.我国制造业推行精益生产方式的对策研究.燕山大学学报(哲学社会科学版),2001,2(l):88-94
[100]门田安弘.丰田式生产体系.台北:中国生产力中心,1987
[101]王浩然,曾凤章.精益生产方式在我国制造业推广应用对策研究.北京轻工业学院学报,2001,19(2)57-62
[102]魏大鹏.准时化生产方式的技术支撑体系.工业工程与管理,1998,3(2):30-33
[103] S. Kotani.Optimal method for changing the number of kanbans in the e-Kanban system and its applications.International Journal of Production Research,2008,45(24):5789–5809
[104]杨光薰.九十年代世纪级制造技术—精良生产.中国机械工程,1993,4(2):32-35
[105]杨光薰,倪伟英,韩晓露.从精益生产走向大规模定制.生产成组技术与生产现代化,2000,(l):16-20
[106]肖智军,党新民,刘胜军.精益生产方式JIT.深圳:海天出版社,2002
[107]杰弗里·莱克.丰田汽车案例—精益制造的14项法则(李芳龄译).北京:中国财政经济出版社,2005
[108]傅雷克·伯勒.金矿:精益管理,挖掘利润(赵克强译).北京:机械工业出版社,2006
[109]詹姆斯·P·沃迈克.精益思想—消灭浪费,创造财富(沈希瑾等译).北京:商务印书馆,2003
[110]彼得·德鲁克.卓有成效地管理者(徐是祥译).北京:机械工业出版社,2005
[111]约翰·德鲁,布莱尔·麦卡勒姆.精益之道(吕奕欣等译).北京:机械工业出版社,2007
[112]布鲁斯·A·汉德森.精益企业:让精益思想贯穿企业的每一个角落(李超译),北京:企业管理出版社,2005
[113] G·萨尔文迪,现代工业工程手册.上海:机械工业出版杜,1987
[114]汪应洛,袁治平.工业工程导论.北京:中国科学技术出版社,2001
[115]赵景华.现代工业工程.北京:冶金工业出版社,1996
[116]粟滋,陈煦,王仁康.工业工程原理与应用.北京:机械工业出版社,1997
[117]蔡启明,张庆,庄品.基础工业工程.北京:科学出版社,2007
[118]张正祥.工业工程基础.高等教育出版社,2006
[119]易树平,郭伏.基础工业工程.北京:机械工业出版社,2007
[120]王恩亮.工业工程手册.北京:机械工业出版社,2006
[121]范中志,张树武,孙义敏.基础工业工程.北京:机械工业出版社,1999
[122]郝晓明.汽车后桥作业车间仿真技术研究与应用:[硕士学位论文].南京:南京理工大学,2009
[123]王玉荣.瓶颈管理.北京:机械工业出版社,2002
[124] Goldratt,目标(齐若兰).北京:电子工业出版社,2006
[125] Goldratt,决不是靠运气(周伶利).北京:电子工业出版社,2006
[126] FawazA Abdulmalek,Jayant Rajgopal.Analyzing the benefits of lean manufacturing and value stream mapp ing via simulation:a p rocess sector case study.International Journoal of Production Economics,2007,5 (10):223-236
[127]蔺宇.TPS的过程成本控制与评价方法研究:[博士学位论文].天津:天津大学,2007
[128]迟国泰,郑杏果,杨中原.基于主成分分析的国有商业银行竞争力评价模.管理学报,2009,6(2):228-233
[129]孙宏才,徐关尧,田平.用网络层次分析法评估应急桥梁设计方案,系统工程理论与实践.2007,3(3):63-70
[130]刘晓华,王忠辉,王艳明.企业统计能力模糊综合评价方法及应用.2009,(24):169-170
[131]王文圣,金菊良,李跃清.基于集对分析的自然灾害危险度综合评价研究.四川大学学报,2009,41(6):6-12
[132]钱吴永,党耀国,熊萍萍等.基于灰色关联定权的TOPSIS法及其应用.系统工程,2007,28(8):124-126
[133]俞集辉,韦俊涛,彭光金等.基于人工神经网络的参数灵敏度分析模型.计算机应用研究,2009,26(6):2279-2282
[134]任宏,祝连波.基于组合权法的建筑施工企业信息化水平的多层次评价模型.系统工程理论与实践,2008,(2):82-89
[135]劳兰珺,张志刚.中国开放式基金业绩排序稳定性的Kendall检验.系统工程,2007,25(1):118-122
[136]熊燕,许晓东.Borda评分法与认可票法的联系与比较.华中科技大学学报,2005,(5):132-134
[137]范超.一种新的组合评价方法.技术经济与管理研究,2009,(2)14-16
[138]王刚,张成洪,黄丽华.基于方法集的企业知识管理评价研究.科技进步与对策,2009,26(4):115-119
[139]庞南生,张洪青.一种基于Spearman秩相关系数与熵的多属性决策方法.运筹与管理,2003,12(5):52-56
[140]王时龙,程畅栋,任亨斌等.多品种小批量环境下的改进型生产系统.计算机集成制造系统,2009,15(9):1131-1136
[141]康杰.精益生产方式中的控制策略的研究与实现:[博士学位论文].成都:西南交通大学,2004
[142] DaviserWJ,ThompsonSD.Production Planning and control hierarehy using a generic controller.IIE Transaction,1993,25(4):26-45
[143] Christenson K R,Dogan C A.A simulation generator for dual-card Kanban controlled flowshops.International Joumal of Produetion Researeh,1995,33(9):2615-2631
[144] Buzacott J A,Shantikurnar J G.A general approach for coordinating Production in multi-cell manufacturing systems.Production and Operations Management,1992,(l):34-52
[145] Bonvik A M . A comparison of production-line control mechanisms.Intemational Joumal of Production Researeh,1997,35(3):789-804
[146] Jose M.Framinan,Pedro L.Gonzo1ez.The CONWIPP reduction control system:review and researeh issues.Produetion Planning&Control,2003,14(3):255-265
[147] KatsuhikoTakahashi,Nobuto Nakamura.Comparing reactive Kanban and reactive CONWIP.Produetion Planning&control,2002,13(8):702-714
[148] (德)Hans Peter Wiendahl著,肖田元等译.面向负荷的生产控制-理论基础、方法与实践.北京:清华大学出版社,1999
[149]康杰.基于生产特性的精益生产控制策略研究.西南大学学报,2007,29(5):133-136
[150]汪定伟.MRPⅡ与JIT结合的生产管理方法.北京:科学出版社,1996
[151]米歇尔·罗伯特,伯纳德·拉辛.精益战略(江林等译).北京:机械工业出版社,2002
[152]邓修权,齐二石.精益生产方式拉动生产系统设计程序的研究.工业工程与管理,2000,(5):25-32
[153]缪周,徐克林,李振飞.基于价值流图的生产线再设计.工业工程,2009,12(5):115-119
[154]季香君,陈琦,吉玉波.价值流理论指导产品的精益生产模式研究.价值工程,2005,24(5):28-29
[155]王新荣,范玉青.基于精益生产的企业价值流的研究.制造业自动化,2002,24(8):28-30
[156]张东汉,孙小明.价值流技术在企业业务流程重组中的应用.工业工程与管理,2005,10(5):593-97
[157] KeltonW. David,Sadowski Randall P,Sturrock David T.仿真使用Arena软件(3版).北京:机械工业出版社,2007