面向物料资源优化利用的产品设计系统与优化下料技术研究
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摘要
制造系统是将制造资源不断转换成产品的系统。制造系统在不断生产产品、创造财富的同时,也消耗了大量的资源。在量大面广的制造系统中,制造资源的浪费情况严重,进行制造系统的资源优化利用技术研究,对提高制造业资源利用率,降低资源消耗,从而提高制造业整体效益具有重要意义。近年来,许多专家学者在从事与此相关的研究和应用工作,如绿色制造、绿色设计、优化下料等,并取得了许多有价值的成果。本文从产品设计的角度对物料资源的优化利用情况进行了较深入的研究,同时深入研究了设计环节中对物料资源的利用效率有显著影响的优化下料技术。
首先分析了制造系统中物料资源消耗的影响因素和产品设计对物料资源消耗的影响;针对产品生命周期中的物料资源优化利用问题,将并行工程的思想引入产品设计,提出了面向物料资源优化利用的并行设计方法,并建立了支持该方法的产品设计系统的结构体系、功能体系和技术体系,研究了物料资源消耗评估和设计信息管理等关键技术。
然后针对面向物料资源优化利用的产品设计系统中涉及的优化下料关键技术进行了深入研究。给出了基于库存的二维Guillotine优化下料问题的数学模型,提出了一种新的求解方法——去差迭代求解法;引入了列生成技术,在推导多原材二维Guillotine优化下料模型求解的列生成数学形式的基础上,给出了列生成迭代求解算法,研究并分析了二维背包问题和一维背包问题的求解算法;提出了板材排样价值概念,建立了板材排样价值的估计方法;论文同时针对优化下料技术当前应用中存在的问题,提出了一种基于ASP(Application Services Provider)模式的多软件协同优化下料解决方法并给出了该方法基于Agent思想的具体实现技术。
本文的研究内容是国家863/CIMS目标产品和总体技术项目的重要组成部分,基于本文的部分研究成果所开发的产品,已经在几十个企业中得到推广应用;在减少物料资源消耗、提高企业的设计水平方面,取得了较好的应用效果。
The manufacturing system is the system that continuously converts manufacturing resource to products. It turns out products and creates wealth, at the same time it consumes vast resource. There exists serious waste of resource in the mass and extensive manufacturing system. So the research on optimal utilization technology of manufacturing resource is of great significance to improve the utility of manufacturing resource, to reduce resource consumption and thereby to improve the whole benefit of manufacturing. In recent years, many scholars and researchers have engaged in related studies and applications, such as green manufacturing, green design, cutting-stock, etc, and have got many value achievements. From the aspect of product design, a deep research on the optimal utilization of material resource is made in this paper. And also the cutting-stock technology that has notable influence on the utility of material resource in the design stage is studied.
Firstly, the factors that can influence the material resource consumption in the manufacturing system are analyzed in this paper, especially in the product design stage. Aiming at the optimal utilization of material resource in the life cycle of product, by using Concurrent Engineering (CE), the concurrent design method oriented to the optimized utilization of material resource is proposed and the frame architecture, function architecture and technology architecture of the product design system which support the concurrent design method are set up in this paper. Some key technologies, such as the evaluation of material consumption and management of design information are also studied.
Then, the cutting-stock technology in the product design system oriented to the optimized utilization of material resource is deeply studied. In this paper, the mathematics model of two-dimensional Guillotine cutting-stock problem based on inventory is set up. To solve the mathematics model above, the iterative solving method through wiping off worse layout is put forward; On the base of the column generation formulas that are deduced to solve multi-material two-dimensional Guillotine cutting-stock model,the column generation algorithm is brought forward by using column generation technology; The solution of two-dimensional knapsack problem and one-dimensional knapsack problem is studied; The concept of the value of
two-dimensional material layout and the evaluation method of this value is put forward; At the same time, according to the existed problems in the application of cutting-stock technology, a multi-software cooperation cutting-stock method based on ASP mode is presented, and the implementing technology based on Agent is presented.
Achievements in this paper are the important parts of several national 863/CIMS projects. The products developed on the basis of some achievements in this paper are applied in dozens of enterprises and got good results in reducing the material consumption and improving the design level.
首先分析了制造系统中物料资源消耗的影响因素和产品设计对物料资源消耗的影响;针对产品生命周期中的物料资源优化利用问题,将并行工程的思想引入产品设计,提出了面向物料资源优化利用的并行设计方法,并建立了支持该方法的产品设计系统的结构体系、功能体系和技术体系,研究了物料资源消耗评估和设计信息管理等关键技术。
然后针对面向物料资源优化利用的产品设计系统中涉及的优化下料关键技术进行了深入研究。给出了基于库存的二维Guillotine优化下料问题的数学模型,提出了一种新的求解方法——去差迭代求解法;引入了列生成技术,在推导多原材二维Guillotine优化下料模型求解的列生成数学形式的基础上,给出了列生成迭代求解算法,研究并分析了二维背包问题和一维背包问题的求解算法;提出了板材排样价值概念,建立了板材排样价值的估计方法;论文同时针对优化下料技术当前应用中存在的问题,提出了一种基于ASP(Application Services Provider)模式的多软件协同优化下料解决方法并给出了该方法基于Agent思想的具体实现技术。
本文的研究内容是国家863/CIMS目标产品和总体技术项目的重要组成部分,基于本文的部分研究成果所开发的产品,已经在几十个企业中得到推广应用;在减少物料资源消耗、提高企业的设计水平方面,取得了较好的应用效果。
The manufacturing system is the system that continuously converts manufacturing resource to products. It turns out products and creates wealth, at the same time it consumes vast resource. There exists serious waste of resource in the mass and extensive manufacturing system. So the research on optimal utilization technology of manufacturing resource is of great significance to improve the utility of manufacturing resource, to reduce resource consumption and thereby to improve the whole benefit of manufacturing. In recent years, many scholars and researchers have engaged in related studies and applications, such as green manufacturing, green design, cutting-stock, etc, and have got many value achievements. From the aspect of product design, a deep research on the optimal utilization of material resource is made in this paper. And also the cutting-stock technology that has notable influence on the utility of material resource in the design stage is studied.
Firstly, the factors that can influence the material resource consumption in the manufacturing system are analyzed in this paper, especially in the product design stage. Aiming at the optimal utilization of material resource in the life cycle of product, by using Concurrent Engineering (CE), the concurrent design method oriented to the optimized utilization of material resource is proposed and the frame architecture, function architecture and technology architecture of the product design system which support the concurrent design method are set up in this paper. Some key technologies, such as the evaluation of material consumption and management of design information are also studied.
Then, the cutting-stock technology in the product design system oriented to the optimized utilization of material resource is deeply studied. In this paper, the mathematics model of two-dimensional Guillotine cutting-stock problem based on inventory is set up. To solve the mathematics model above, the iterative solving method through wiping off worse layout is put forward; On the base of the column generation formulas that are deduced to solve multi-material two-dimensional Guillotine cutting-stock model,the column generation algorithm is brought forward by using column generation technology; The solution of two-dimensional knapsack problem and one-dimensional knapsack problem is studied; The concept of the value of
two-dimensional material layout and the evaluation method of this value is put forward; At the same time, according to the existed problems in the application of cutting-stock technology, a multi-software cooperation cutting-stock method based on ASP mode is presented, and the implementing technology based on Agent is presented.
Achievements in this paper are the important parts of several national 863/CIMS projects. The products developed on the basis of some achievements in this paper are applied in dozens of enterprises and got good results in reducing the material consumption and improving the design level.
引文
[1] 刘飞,张晓冬,杨丹. 制造系统工程. 第二版. 北京: 国防工业出版社,2000
[2] 刘飞. 制造自动化的广义内涵、研究现状和发展趋势. 机械工程学报,1999,35(1): 1~5
[3] 赵东标,朱剑英. 智能制造技术与系统的发展与研究. 中国机械工程,1999,10(8): 927~931
[4] 罗振璧,盛伯浩,赵晓波等. 快速重组制造系统. 中国机械工程,2000,11(3): 300~303
[5] 熊有伦,吴波,丁汗. 新一代制造系统理论及建模. 中国机械工程,2000,11(1-2): 49~52
[6] Chisholm A W J. Nomenclature and Definitions for Manufacturing Systems. Annals of CIRP. 1990, 39(2): 735~744
[7] Chryssolouris G. Manufacturing Systems: Theory and Practice. New York. Springer-Verlag. 1992
[8] Hitomi K. Manufacturing Systems: Past, Present and for the Future. International Journal of Manufacturing System Design. 1994, 1(1): 1~17
[9] 张华. 绿色制造的体系结构与总体决策技术研究. 重庆大学博士学位论文,2000
[10] 杨晓京. 绿色制造中的物能资源消耗过程研究. 机械工程师,1999,(4):1~3
[11] Round Table. Design and Manufacturing for a Clean Environment. Annals of the CIRP, 1995,44(2)
[12] 刘飞,曹华军,何乃军. 绿色制造的研究现状与发展趋势. 中国机械工程,2000,11(1):105~109
[13] 刘飞,张华,陈晓慧. 绿色制造的集成特性和绿色集成制造系统,计算机集成制造系统,1999,5(4):9~13
[14] Steven A.Melnyk. PhD. Green Manufacturing. Computer and Automated System Association of the Society of Manufacturing Engineers (SME),1996
[15] 张华,刘飞,马祖军. 绿色制造的广义内涵和集成特性. 制造技术与机床,1999,(11):10~12
[16] 刘飞. 21世纪制造业的绿色变革与创新. 机械工程学报,2000,36(1):7~10
[17] Suzanne H. Weissrnan. Environment Conscious Manufacturing, Technology for the Nineties. At&T Technical Journal,1991,11/12
[18] 刘飞,陈晓慧,张华. 绿色制造. 北京: 中国经济出版社,1998
[19] 陈晓慧. 制造系统的资源消耗模型及资源消耗状况的分析研究. 重庆大学博士学位论文,1999
[20] Leo Alting. Life Cycle Engineering and Design. Annals of the CIRP,1995,44(2)
[21] Steven, ashley. Design for the Environment. Mechanical Engineering 52/March,1993
[22] 刘志峰,刘光复. 绿色产品与绿色设计. 机械设计,1999,(12):1~3
[23] 向东,张根保,汪永超等. 绿色产品长寿命设计原则初探. 机械设计与制造工程,1999,28(6):23~24
[24] 刘飞,曹华军,张华等. 绿色设计. 北京: 中国经济出版社,2001
[25] 刘红旗,陈世兴. 绿色产品设计的评价方法和评价体系. 工程设计,1999,(4):1~4
[26] Leo Alting. The Life Cycle Concept as a basic for Sustainable Industrial Production, Annals of the CIRP,1993,41(1):163~167
[27] 汪永超,张根保,向东等. 绿色设计原则初探. 机械设计与研究,1999,(2):24~26
[28] 李伯虎,吴澄,刘飞等. 现代集成制造的发展与863/CIMS主题的实施策略. 计算机集成制造系统—CIMS. 1998,4(5): 1~6
[29] 李伯虎,戴国忠. CIMS应用示范工程10年回顾与展望. 计算机集成制造系统—CIMS,1998,4(3): 3~9
[30] Design for environment attributes of the AT&T 5ESS switch Glenn C.Wightman AT&T Techical Journal,1995,11/12
[31] R.Zust. Life-cylce modeling as an instrucment for life-cycle engineering. Annals of the CIRP,1997,46(1)
[32] R.Wallance Information-based Design for Environmental Problem Solving David Annals of the CIRP,1993,42(1)
[33] F.Jovane. A Key Issue in Product Life Cycle: Disassembly (1) Annals of the CIRP,1993,42(2)
[34] Jovane F.Etal., A Key Issue in Product Life Cycle: Disassembly, Annals of the CIRP, 1993,42(2):120~125
[35] Weule H, Life-cycle Analysis Element for Future Products and Manufacturing Technologies, Annals of the CIRP, 1993,42(1):181~184
[36] ISO14001: Environmental management systems-specification with guidance for use, 1996
[37] ISO14040: Environmental management-life cycle assessment-principles and framework,1997
[38] Barger, Marilyn ISO14000 standards - environmental management for the 21st century. ASEE Annual Conference Proceedings 1997. ASEE, Washington, DC, USA. 5p
[39] Finkbeiner, Matthias; Wiedemann, Michael; Saur, Konrad Life-cycle-assessment (ISO 14040) in the context of environmental management systems (ISO 14001). Design and Manufacture for the Environment SAE Special Publications v 1342 Feb 1998. SAE, Warrendale, PA, USA. p 163~170 980474
[40] 向东,张根保,汪永超等. 可持续发展CIMS(S-CIMS)的体系结构及其实施策略研究. 机械设计与制造工程,1999,28(2):25~27
[41] 向东,张根保,汪永超等. 可持续发展CIMS(S-CIMS)的基本概念及体系结构研究. 机械,1998,25(6):2~5
[42] 宾鸿赞. 可持续制造及其技术. 中国机械工程,1998,9(1):72~74
[43] 刘飞,曹华军. 绿色制造的理论体系框架. 中国机械工程,2000,11(9):961~964
[44] 傅志红,胡爱武,阳卫群. 产品的绿色设计与绿色制造. 机械设计与制造工程,1999,28(4):9~10
[45] Green Products by Design: Choices for a cleaner Environment. NTIS,1992,10
[46] 倪俊芳,顾德裕,欧海涛等. 考虑可回收性的产品设计方法. 工程设计,2000,(1):11~13
[47] Hentschel C, Seliger G, Zussman E.Recycling Process Planning for Discarded Complex Products:A Predictive and Reactive Approach. Proc.DIRP 2 Int.Seminar on life Cycle Engineering, 1994,10-11, 195~209
[48] Glenn C.Wightman, Gregory C. Munie, Bryan K. Stolte. Design for Environment Attributes of the AT&T 5ESS Switch. AT&T Techical Journal, 1995,11/12
[49] J.R.Ehrenfeld. Industrial Ecology: A Framework for Product and Process Design. Journal of Cleaner Production, 1997,5(1-2):87~95
[50] Seliger G,Hentschel C. Disassembly Process Planning to Support the Recyclability of Used Technical Products. Vision EUREKA,Industrial Opportunities in Waste Management,Lillehammer,Norway,June13-16,1994
[51] Wada, Yasuhiko; Miura, Hiroyuki. Quantitative evaluation method for the environmental impact of product recycling and its application. Technology Reports of Kansai University n 39 Mar 1997. p 185~196
[52] Rosy WC et al. Product Design for Recyclablity: A Cost Bnefit Analysis Model and Its Application. IEEE, 1993, p.531-534.
[53] T.Suga, Quantitative Disassembly Evaluation, IEEE, 1996,3:19~24
[54] Joseph.G.Scheuring, Effects of Design for Disassembly on Integrated Disassembly and Assembly Process. IEEE, 1994,6:53~59
[55] 刘志峰,刘光复. 产品的可拆卸性及其设计方法. 机械设计与研究,1997,(1):25~27
[56] 刘志峰,夏链,刘光复. 面向拆卸的产品回收设计方法研究. 合肥工业大学学报(自然科学版),1997,20(5):7~12
[57] 傅浩,蔡建国. 面向拆卸与回收设计软件模块的开发. 中国机械工程,2000,11(9):983~987
莫蓉. 计算机辅助可拆卸设计的建模方法和使能工具研究. 中国机械工程,2000,11(9):
[58] 994~996
[59] 胡迪青,胡军军,胡于进等. 支持面向装配和面向拆卸设计的CAD系统. 中国机械工程,2000,11(9):1001~1006
[60] 陈璐,蒋丹东,蔡建国. 可拆卸设计中的面向对象建模技术研究. 中国机械工程,2000,11(9):987~990
[61] 郭茂,蔡建国,童劲松. 基于Petri网的产品拆卸模型研究. 中国机械工程,2000,11(9):1007~1009
[62] 徐顺利,薛进学,李鸣鸣. 面向装配及拆卸的产品设计,中国机械工程,2000,11(9):1020~1021
[63] 蒋洪伟,韩文秀. 产品回收模型研究. 中国机械工程,2000,11(9):1022~1023
[64] 刘光复,刘学平,刘志峰. 绿色设计的体系结构及实施策略. 中国机械工程,2000,11(9):965~968
[65] 刘志峰,许永华,刘学平等. 绿色产品评价方法研究. 中国机械工程,2000,11(9):968~971
[66] D.Spath. The Utilization of Hypermedia-Based Information Systems for Developing Recyclable Products and For Disassembly Planning. Annals of the CIRP,1994,43(1):153~156
[67] Geiger D.,Zussmann E. Probabilistic Reactive Disassembly Planning. Annals of the CIRP,1996,45(1):49~52
[68] Swaroop Sosale,Mehdi Hashemian,Peihua Gu. Product Modularization for Reuse and Recycling. ASME,1997,DE-V01.94/MED-Vol.5:195-203
[69] 田峰. CAD方法中的优化技术. 计算机辅助设计与制造,1999,(9):48~50
[70] 许贤泽. 机械系统结构优化设计的遗传基因法. 机械设计与制造. 2000,36(3):36~37
[71] 程心恕,苏燕,程旭日. 基于随机有限元的结构优化设计. 福州大学学报(自然科学版),1999,27(3):93~98
[72] 宋天齐,怀春生. 结构优化设计的有关问题商椎. 低温建筑技术. 1998,(1):18
[73] 龚景海,刘锡良. 遗传算法与网格结构杆件优化下料. 空间钢结构. 2000,15(2):26~29
[74] 赵正佳,黄洪钟,陈新. 优化设计求解的遗传-神经网络新算法研究. 2000,35(1):65~68
[75] Dyckhoff H.. A typology of cutting and packing problems. Eur.J.Opl Res. 1990,(44):145~159
[76] Gilmore P.C., Gomory R.E.. The theory and computation of knapsack functions. Opns Res. 1966 ,(14):1045~1047
[77] Gimore P.C. , Gomory R .E..A linear programming approach to the cutting stock problem-Part II. Opns Res. 1963,(11):863~887
Gilmore P.C., Gomory R.E.. Multistage cutting stock problem of two and more dimensions.
[78] Opns Res. 1965,(13):94~120
[79] Gimore P.C. , Gomory R .E..A linear programming approach to the cutting stock. Opns Res. 1961,(9):849~859
[80] Gau T. et.al.. Cutgen1: A problem generator for the standard one-dimensional cutting stock problem. Eur.J.Opl Res.1995,(84):572~579
[81] Fayard D., Zissimopoulos V.. An approximation algorithm for solving unstrained two-dimensional knapsack problem. Eur.J.Opl Res.1995,(84):562~571
[82] 周杰,李军,杨特芝等. 矩形件套裁人工智能优化排样. 锻压技术,1995,(4):19~22
[83] 文贵华,丁月华. 基于动态分割与合上的排样算法. 1999,25(12)
[84] 黄崇斌,胡吉全. 板材优化下料矩形综合法. 起重运输机械,1996,(6),28~30
[85] 曹炬.实用矩形件优化排样系统的研究与开发.锻压技术,1999,(5):19~23
[86] 刘岩,阎振华,吕建斌等. 冲裁参数计算、排样及板材下料的优化设计. 太原重型机械学院学报,1995,16(3):252~257
[87] S. P. Fekete, J. Schepers. A new exact algorithm for general orthogonal d-dimensional knapsack problems. Algorithms ESA '97, Springer Lecture Notes in Computer Science. 1997, 1284: 144~156
[88] S. Tschoke, N. Holthofer. A new parallel approach to the constrained two-dimensional cutting stock problem. In Workshop on Algorithms for Irregularly Structured Problems, LNCS. 1995: 285~299
[89] S. Martello, D. Vigo. Exact solution of the two-dimensional finite bin packing problem. Management Science, 1998, (44):388~399
[90] Beasley JE. A population heuristic for constrained two-dimensional nonguillotine cutting. Working paper available from the author at The Management School, Imperial College, London SW7 2AZ, England. 2000
[91] 张鸿宾. 组合优化问题的启发式搜索. 计算机科学. 1998,(9):211~228
[92] 刘弘,曾广周,林宗楷. 具有类比学习机制的优化排料系统. 计算机辅助设计与图形学学报,1997,9(5):436~441
[93] 黄有群,刘嘉敏,朴致淳. 剪床排样的计算机辅助设计. 小型微型计算机系统,1995,16(7):43~47
[94] 徐彦欣. 基于产生式规则的二维不规则零件的排料算法. 小型微型计算机系统,1998,19(10):48~52
[95] Oliverira J.F.,Ferrira J.S..An improved version of Wang's algorithm for two-dimensional cutting problems. Eur.J.Opl Res.1995,(84):599~617
Haessler R.W.. Controlling cutting pattern changes in one-dimensional trim problems. Opns
[96] Res. 1975,(23):483~493
[97] 刘文明,李定坤,陈建华等.计算机辅助剪床优化排样算法的研究.福州大学学报(自然科学版),1998,26(1):15~19
[98] Beasley J.E.. Algorithms for Unstrained Two-dimensional Guillotine Cutting. J. Opl Res. Soc. 1985,36(4):298~306
[99] 龚坚.二维Guillotine优化下料技术及应用研究. 重庆大学博士学位论文. 1996
[100] Guntram S, Johannes T, Gleb B. A Cutting Plane Approach for the One-Dimensional Cutting-Stock Problem. Proceedings of the 2nd International Workshop on Computer Science and Information Technologies CSIT’2000. 2000, 1: 304
[101] 刘嘉敏,张胜男,黄有群. 二维不规则形状自动排料算法的研究与实现.计算机辅助设计与图形学学报.2000,12(7):488~491
[102] 蔡正军,龚坚,刘飞.板材优化下料的数学模型的研究.重庆大学学报(自然科学版).1996,19(2):82~88
[103] 黄宜军,施德恒,许启富. 钣金CAD中一个较优的排样算法. 计算机辅助设计与图形学学报,2000,12(5):380~383
[104] 陈文亮,崔英,李磊. 基于自动碰撞技术的最优排样算法. 计算机应用研究.2000,(7):38~39
[105] Arenales.M., Gramani. Two-Staged and Constrained Two-Dimensional Guillotine Cutting Problems. Belgium:the 16th European Conference on Operational Research, 1998
[106] Qu Weishuang,Sanders J. I.. Sequence selection of stock sheets in two-dimensional layout problems. INT. J. Prod.Res.1989, 27(9):1553~1571
[107] Stadtler H. .A one-dimensional cutting stock problem in the aluminium industry and its solution. Eur. J. Opl Res. 1990,(44):209~223
[108] C. Barnhart, E.D. Johnson, G.L. Nemhauser et al..Branch and Price Column Generation for Solving Hugh Integer Programs, Operations Research, 1998, 46:316~329
[109] Paolo Toth. Optimization engineering techniques for the exact solution of NP-hard combinatorial optimization problems. Eur.J.Opl Res, 2000,125:222~238
[110] Vanderbeck F. Exact algorithm for minimizing the number of setups in the one-dimensional cutting stock problem. Operations Research. 2000,48(6):915~926
[111] C.B. et al.. Branch-and-Price Algorithms for the One-Dimensional Cutting Stock Problem. Computational Optimization and Applications, 1998 ,9: 211~228
[112] Blazewicz, J.,Walkowiak R. . Comparison of Tabu Search Approaches for Two-dimensional Irregular Cutting. Belgium:the 16th European Conference on Operational Research, 1998
Kenyon C,Remila E. Near-optimal solution to a two-dimensional cutting stock problem.
[113] Mathematics of Operations Research. 2000,25(4):645~656
[114] Kolen A W J. Solving a bi-criterion cutting stock problem with open-ended demand: A case study. Journal of the Operational Research Society. 2000,51(11):1238~1247
[115] 王凌,郑大钟.Meta-Heuristic--算法研究进展.控制与决策,2000,15(3):257~262
[116] 戴晓晖,李敏强,蔻纪凇. 遗传算法理论研究综述. 控制与决策,2000,15(3): 263~268
[117] 金炳尧. 最优化计算中的若干新技术.科技通报,2000,16(2): 119~124
[118] 谢云. 模拟退火算法综述. 微计算机信息,1998,14(5): 66~68
[119] 侯格贤,吴成柯. 遗传算法的性能分析. 控制与决策,1999,14(3):257~260
[120] 胡国四,韩生廉.遗传算法适值函数定义方法的研究.控制与决策,1999,14(6): 694~697
[121] 史奎凡,陈月辉.提高遗传算法收敛速度的方法.信息与控制,1998,27(4):289~293
[122] 王洪燕,杨敬安.并行遗传算法研究进展.计算机科学,1999,26(6):48~56
[123] 李绍军,王惠,姚平经.求解全局最优化的遗传(GA)-Alopex算法的研究.信息与控制,2000,29(4):304~314
[124] 董聪,郭晓华,袁曾任.基于广义遗传算法的全局优化方法.计算机科学,1999,26(6):7~10
[125] Randall M, Abramson D. A General Purpose Meta-heuristic Based Solver for Combinatorial Optimisation Problems. TR99-01, School of Information Technology, Bond University. 1999
[126] 罗阳.机械制造车间生产作业多智能体规划原理与板材套料优化方法的研究.四川大学博士学位论文,2001
[127] 曹炬,胡修彪.大规模矩形件优化排样的遗传算法.锻压机械,1999,(4):17~20
[128] 孟繁桢,张庆翠.用遗传算法求解最优切割方法.应用科学学报,2000,18(3):276~279
[129] 李娟,方平,周明.一种求解背包问题的混合遗传算法.南昌航空工业学院学报,1998,(3):31~35
[130] Robert Hinterding, Kate Juli . A genetic algorithm for stock cutting: an exploration of mapping schemes. Technical Report TR 24 COMP3, Victoria University of Technology, Department of Computer and Mathematical Sciences, 1993. ga:Juliff93b.
[131] R. Sharma, T. Balacahander, S. Anand, Q. Zhang. A genetic algorithm for the non-convex cutting stock problem, (with) Transactions of the North American Manufacturing Research Institute, XXV . 1997: 281 ~286
[132] R. Hinterding, L. Khan. Genetic algorithms for cutting stock problems: with and without contiguity. in Progress in Evolutionary Computation (X. Yao, ed.), vol. 956 of Lecture Notes in Articial Intelligence, (Berlin), Springer, 1995: 166~186
[133] S. Anand, T. Balachandar, R. Sharma . An integrated machine vision based system for solving the non-convex cutting stock problem using genetic algorithms. Journal of Manufacturing Systems. 1999, (18): 396 ~415
[134] 李建勇,鄂明成,曹月东. 利用混沌人工神经元网络进行布局优化计算.制造业信息化,2000,22(1):21~22
[135] 滕健,李滨慧,施洪生等. 用神经网络解决二维不规则零件的排料问题. 机械设计与制造工程,1999,28(6):61~63
[136] 曹炬,冯松. 遗传算法在矩形件优化排样中的应用. 计算机工程与应用,1999,(5):5~7
[137] Blazewicz, J.,Walkowiak R. . Comparison of Tabu Search Approaches for Two-dimensional Irregular Cutting. Belgium:the 16th European Conference on Operational Research, 1998
[138] 陈久强,殷国富. 冲压件的智能排样. 机械设计,1997,(10):24~26
[139] 冯蔚东,陈剑,冯铁军等. 虚拟企业组织设计过程模型与试应用. 计算机集成制造系统,2000,6(3):17~24
[140] 黄志清,郭钢,徐宗俊. 面向并行工程的纸包装产品设计系统研究. 包装工程,2000,21(2):1~4
[141] 童秉枢. 现代CAD.技术. 北京:清华大学出版社,2000
[142] 虞春,周雄辉,张永清. 特征造型与有限元分析的集成化研究. 计算机辅助设计与图形学学报,1999,11(1):62~65
[143] 程泽坤. 结构分析软件应用过程中潜在问题分析及处理对策. 水运工程,1998,(6):48~49
[144] 蔡永昌,骆少明,张湘伟. 面向对象的有限元静力分析程序设计. 汕头大学学报(自然科学版),1999,14(2):34~39
[145] 虞春,周雄辉,张永清. 面向有限元分析的特征建模技术. 工程设计,1999,(3):34~39
[146] 唐泉,朱湘毅,秦钜晏等. 基于Metaphase的油泵类产品并行开发过程研究及实现. 机械设计与研究,2000,(2):19~21
[147] 孙伟,徐中,刘晓冰等. CIMS环境下基于C/S模式的材料定额管理系统的研究. 机械设计与制造,2000,(4):10~11
[148] 863/CIMS主题办公室. PDM专辑. CIMS剪报,1997,5
[149] 张志英,张祥永,唐承统等. 基于PDM的CAD/CAPP/CAM集成技术的研究. 机械设计与制造,2000,(4):23~24
[150] EDS公司. PDM在企业范围内的作用. EDS用户通讯,1995,3
[151] 李银胜, 张和明等. PDM在VIPD中的应用与研究. 计算机工程与应用,1999,(1): 1~3
[152] 魏志强, 王先逵等. 基于敏捷制造环境的分布式产品数据管理技术. 清华大学学报,2000,40(8): 45~48
[153] 乐玮琳,刘清华,万立. 基于Internet/Intranet的产品数据管理系统的研究. 计算机辅助工程,1998,(4):10~13
李建明, 童秉枢, 许隆文. 产品数据管理技术的现状与发展. 计算机集成制造系统
[154] CIMS,1998,2(6): 1~5
[155] 高奇微, 莫欣农. 产品数据管理(PDM)及其实施. 北京:机械工业出版社,1998
[156] 张汉新,蔡力钢,张国军等. 基于PDM的集成化CAPP系统. 华中理工大学学报,28(4):7~9
[157] 刑竞帆. PDM在并行工程中的应用. 制造业设计技术,2000,(2): 26~28
[158] 彭继忠, 李建明等. 基于PDM的应用集成研究与实践. 计算机集成制造系统CIMS,2000,6(1): 65~68
[159] 何爱新,徐弘山. 基于PDM框架的CAD/CAPP/CAM并行集成技术研究. 计算机辅助设计与制造,1999,(8):45~48
[160] 李玉家,金华等. 并行工程与企业级产品数据管理. 机械设计与制造,1999, (4):65~68
[161] 朗波, 周长胜, 邓家提. “金银花”CAD/CAM系统数据集成平台研究. 计算机集成制造系统CIMS,1999,5(5): 69~72
[162] 李建明等. 并行工程环境中的集成框架. 中国机械工程,1998,9(10): 30~33
[163] 苏宝华,祁国宁,韩永生等. 基于结构单元的产品建模原理与实现. 计算机集成制造系统,1999,5(2):26~30
[164] 苏宝华,祁国宁,顾新建等. 结构单元的基本原理及其在产品建模中的应用. 机械科学与技术,1999,18(3):371~374
[165] 袁清珂等. 产品数据表达与交换标准STEP的研究及应用. 机械科学与技术,1997,16(6): 21~25
[166] STEP Tools Inc. http://www.steptools.com/library/standard/, 2001
[167] National Institute of Standards and Technology's web site. http://www.nist. gov/, 2001
[168] 现代集成制造系统网络CIMS北航站. http://www.buaa.cims.edu.cn/ cadcam/step_key2.htm, 2001
[169] 张卫民等. Java语言与WWW. 北京: 人民邮电出版社,1997
[170] 黄志清.网络化设计及其关键支持技术研究与实践. 重庆大学博士学位论文,2001
[171] 尹超. 区域性网络化制造系统及其产品协同开发技术的研究与应用. 重庆大学博士学位论文,2001
[172] 杨军,李思昆,郭阳等. 支持并行设计的产品数据管理. 计算机辅助设计与图形学学报,1999,3(3)
[173] 管梅谷,郑汉鼎. 线性规划. 济南: 山东科学技术出版社,1987
[174] 邓先礼. 最优化技术. 重庆: 重庆大学出版社,1998
[175] 许万蓉. 线性规划. 北京: 北京理工大学出版社,1988
[176] 魏国华,王芬. 线性规划. 北京: 高等教育出版社,1991
[177] Wooldridge M. Agent-based computing. Baltazar J.,1997
[178] 毛新军,王怀民,陈火旺,刘凤歧. Agent计算的理论框架. 计算机研究与发展,1999,36(11): 1310~1316
[179] Wooldridge M, Jennings N R. Intelligent Agents: Theories, Architectures, and Languages (LNAI Vol 890). New York: Springer-Verlag. 1995
[180] Wooldridge M, Jennings N R. Intelligent agents: theory and practice. The Knowledge Engineering Review. 1995,10(2): 115~152
[181] Muller JP, Wooldridge M, Jennings N R et. Intelligent Agents III: Agent Theories, Architectures, and Languages(LNAI Vol 1193). New York: Springer-Verlag. 1996,21~36
[182] 陈建中,刘大有,唐海鹰. 智能Agent建模的一种模板结构. 计算机研究与发展,1999,36(10): 1164~1168
[183] 朱晓芸,何钦铭,王申康. 一种基于智能Agent的协同工作模型. 计算机应用,1999,19(6):
[184] 应济,吕红兵,江力. 基于多Agent协作的设计问题求解框架. 计算机辅助设计与图形学学报,1999,11(6): 563~566
[185] 乌兰木其,邓家禔. Agent与对象. 计算机集成制造系统—CIMS,1999,5(5): 38~41
[186] Brown Michael, Allen. Julian Logistics Strategies for Europe. Logistics and Distribution Planning,1994: 122~134
[187] 何炎祥, 吴思. 基于多Agent的分布开放计算环境模型. 高技术通讯, 1998,8(6)
[188] 陈宁江,苏德富. 基于Agent的CSCW系统及其通讯实现. 广西大学学报, 2000,25(2):94~97
[189] 刘宏,袁捷. 一种基于Agent的决策支持系统生成器新框架. 计算机工程,1999,25(12)
[190] 赵福民. 基于多Agent的网络化制造系统研究. 合肥工业大学博士学位论文,2000
[191] 宋豫川. 大物流制造企业系统集成方法及工程应用研究. 重庆大学博士学位论文,2001
[192] 阎春平,刘万奇,刘希刚等. 建筑金属结构企业计算机辅助设计和生产管理集成系统. 全国高校制造自动化研究会第九届学术年会论文集. 机械工业出版社,2000.7:301~304
[193] 阎春平,宋豫川,刘飞等. 建筑金属结构企业工程设计及报价系统. 重庆大学学报(自然科学版),2001,24(1):8~11
[194] Yan Chunping,Liufei,Wangjing. Project Products Design Oriented to the Optimized Utilization of Material Resource. Proceedings of IE&EM'2001,2001,8
[195] 深圳方大集团CIMS应用示范工程验收资料之一——用户报告. 2000
[2] 刘飞. 制造自动化的广义内涵、研究现状和发展趋势. 机械工程学报,1999,35(1): 1~5
[3] 赵东标,朱剑英. 智能制造技术与系统的发展与研究. 中国机械工程,1999,10(8): 927~931
[4] 罗振璧,盛伯浩,赵晓波等. 快速重组制造系统. 中国机械工程,2000,11(3): 300~303
[5] 熊有伦,吴波,丁汗. 新一代制造系统理论及建模. 中国机械工程,2000,11(1-2): 49~52
[6] Chisholm A W J. Nomenclature and Definitions for Manufacturing Systems. Annals of CIRP. 1990, 39(2): 735~744
[7] Chryssolouris G. Manufacturing Systems: Theory and Practice. New York. Springer-Verlag. 1992
[8] Hitomi K. Manufacturing Systems: Past, Present and for the Future. International Journal of Manufacturing System Design. 1994, 1(1): 1~17
[9] 张华. 绿色制造的体系结构与总体决策技术研究. 重庆大学博士学位论文,2000
[10] 杨晓京. 绿色制造中的物能资源消耗过程研究. 机械工程师,1999,(4):1~3
[11] Round Table. Design and Manufacturing for a Clean Environment. Annals of the CIRP, 1995,44(2)
[12] 刘飞,曹华军,何乃军. 绿色制造的研究现状与发展趋势. 中国机械工程,2000,11(1):105~109
[13] 刘飞,张华,陈晓慧. 绿色制造的集成特性和绿色集成制造系统,计算机集成制造系统,1999,5(4):9~13
[14] Steven A.Melnyk. PhD. Green Manufacturing. Computer and Automated System Association of the Society of Manufacturing Engineers (SME),1996
[15] 张华,刘飞,马祖军. 绿色制造的广义内涵和集成特性. 制造技术与机床,1999,(11):10~12
[16] 刘飞. 21世纪制造业的绿色变革与创新. 机械工程学报,2000,36(1):7~10
[17] Suzanne H. Weissrnan. Environment Conscious Manufacturing, Technology for the Nineties. At&T Technical Journal,1991,11/12
[18] 刘飞,陈晓慧,张华. 绿色制造. 北京: 中国经济出版社,1998
[19] 陈晓慧. 制造系统的资源消耗模型及资源消耗状况的分析研究. 重庆大学博士学位论文,1999
[20] Leo Alting. Life Cycle Engineering and Design. Annals of the CIRP,1995,44(2)
[21] Steven, ashley. Design for the Environment. Mechanical Engineering 52/March,1993
[22] 刘志峰,刘光复. 绿色产品与绿色设计. 机械设计,1999,(12):1~3
[23] 向东,张根保,汪永超等. 绿色产品长寿命设计原则初探. 机械设计与制造工程,1999,28(6):23~24
[24] 刘飞,曹华军,张华等. 绿色设计. 北京: 中国经济出版社,2001
[25] 刘红旗,陈世兴. 绿色产品设计的评价方法和评价体系. 工程设计,1999,(4):1~4
[26] Leo Alting. The Life Cycle Concept as a basic for Sustainable Industrial Production, Annals of the CIRP,1993,41(1):163~167
[27] 汪永超,张根保,向东等. 绿色设计原则初探. 机械设计与研究,1999,(2):24~26
[28] 李伯虎,吴澄,刘飞等. 现代集成制造的发展与863/CIMS主题的实施策略. 计算机集成制造系统—CIMS. 1998,4(5): 1~6
[29] 李伯虎,戴国忠. CIMS应用示范工程10年回顾与展望. 计算机集成制造系统—CIMS,1998,4(3): 3~9
[30] Design for environment attributes of the AT&T 5ESS switch Glenn C.Wightman AT&T Techical Journal,1995,11/12
[31] R.Zust. Life-cylce modeling as an instrucment for life-cycle engineering. Annals of the CIRP,1997,46(1)
[32] R.Wallance Information-based Design for Environmental Problem Solving David Annals of the CIRP,1993,42(1)
[33] F.Jovane. A Key Issue in Product Life Cycle: Disassembly (1) Annals of the CIRP,1993,42(2)
[34] Jovane F.Etal., A Key Issue in Product Life Cycle: Disassembly, Annals of the CIRP, 1993,42(2):120~125
[35] Weule H, Life-cycle Analysis Element for Future Products and Manufacturing Technologies, Annals of the CIRP, 1993,42(1):181~184
[36] ISO14001: Environmental management systems-specification with guidance for use, 1996
[37] ISO14040: Environmental management-life cycle assessment-principles and framework,1997
[38] Barger, Marilyn ISO14000 standards - environmental management for the 21st century. ASEE Annual Conference Proceedings 1997. ASEE, Washington, DC, USA. 5p
[39] Finkbeiner, Matthias; Wiedemann, Michael; Saur, Konrad Life-cycle-assessment (ISO 14040) in the context of environmental management systems (ISO 14001). Design and Manufacture for the Environment SAE Special Publications v 1342 Feb 1998. SAE, Warrendale, PA, USA. p 163~170 980474
[40] 向东,张根保,汪永超等. 可持续发展CIMS(S-CIMS)的体系结构及其实施策略研究. 机械设计与制造工程,1999,28(2):25~27
[41] 向东,张根保,汪永超等. 可持续发展CIMS(S-CIMS)的基本概念及体系结构研究. 机械,1998,25(6):2~5
[42] 宾鸿赞. 可持续制造及其技术. 中国机械工程,1998,9(1):72~74
[43] 刘飞,曹华军. 绿色制造的理论体系框架. 中国机械工程,2000,11(9):961~964
[44] 傅志红,胡爱武,阳卫群. 产品的绿色设计与绿色制造. 机械设计与制造工程,1999,28(4):9~10
[45] Green Products by Design: Choices for a cleaner Environment. NTIS,1992,10
[46] 倪俊芳,顾德裕,欧海涛等. 考虑可回收性的产品设计方法. 工程设计,2000,(1):11~13
[47] Hentschel C, Seliger G, Zussman E.Recycling Process Planning for Discarded Complex Products:A Predictive and Reactive Approach. Proc.DIRP 2 Int.Seminar on life Cycle Engineering, 1994,10-11, 195~209
[48] Glenn C.Wightman, Gregory C. Munie, Bryan K. Stolte. Design for Environment Attributes of the AT&T 5ESS Switch. AT&T Techical Journal, 1995,11/12
[49] J.R.Ehrenfeld. Industrial Ecology: A Framework for Product and Process Design. Journal of Cleaner Production, 1997,5(1-2):87~95
[50] Seliger G,Hentschel C. Disassembly Process Planning to Support the Recyclability of Used Technical Products. Vision EUREKA,Industrial Opportunities in Waste Management,Lillehammer,Norway,June13-16,1994
[51] Wada, Yasuhiko; Miura, Hiroyuki. Quantitative evaluation method for the environmental impact of product recycling and its application. Technology Reports of Kansai University n 39 Mar 1997. p 185~196
[52] Rosy WC et al. Product Design for Recyclablity: A Cost Bnefit Analysis Model and Its Application. IEEE, 1993, p.531-534.
[53] T.Suga, Quantitative Disassembly Evaluation, IEEE, 1996,3:19~24
[54] Joseph.G.Scheuring, Effects of Design for Disassembly on Integrated Disassembly and Assembly Process. IEEE, 1994,6:53~59
[55] 刘志峰,刘光复. 产品的可拆卸性及其设计方法. 机械设计与研究,1997,(1):25~27
[56] 刘志峰,夏链,刘光复. 面向拆卸的产品回收设计方法研究. 合肥工业大学学报(自然科学版),1997,20(5):7~12
[57] 傅浩,蔡建国. 面向拆卸与回收设计软件模块的开发. 中国机械工程,2000,11(9):983~987
莫蓉. 计算机辅助可拆卸设计的建模方法和使能工具研究. 中国机械工程,2000,11(9):
[58] 994~996
[59] 胡迪青,胡军军,胡于进等. 支持面向装配和面向拆卸设计的CAD系统. 中国机械工程,2000,11(9):1001~1006
[60] 陈璐,蒋丹东,蔡建国. 可拆卸设计中的面向对象建模技术研究. 中国机械工程,2000,11(9):987~990
[61] 郭茂,蔡建国,童劲松. 基于Petri网的产品拆卸模型研究. 中国机械工程,2000,11(9):1007~1009
[62] 徐顺利,薛进学,李鸣鸣. 面向装配及拆卸的产品设计,中国机械工程,2000,11(9):1020~1021
[63] 蒋洪伟,韩文秀. 产品回收模型研究. 中国机械工程,2000,11(9):1022~1023
[64] 刘光复,刘学平,刘志峰. 绿色设计的体系结构及实施策略. 中国机械工程,2000,11(9):965~968
[65] 刘志峰,许永华,刘学平等. 绿色产品评价方法研究. 中国机械工程,2000,11(9):968~971
[66] D.Spath. The Utilization of Hypermedia-Based Information Systems for Developing Recyclable Products and For Disassembly Planning. Annals of the CIRP,1994,43(1):153~156
[67] Geiger D.,Zussmann E. Probabilistic Reactive Disassembly Planning. Annals of the CIRP,1996,45(1):49~52
[68] Swaroop Sosale,Mehdi Hashemian,Peihua Gu. Product Modularization for Reuse and Recycling. ASME,1997,DE-V01.94/MED-Vol.5:195-203
[69] 田峰. CAD方法中的优化技术. 计算机辅助设计与制造,1999,(9):48~50
[70] 许贤泽. 机械系统结构优化设计的遗传基因法. 机械设计与制造. 2000,36(3):36~37
[71] 程心恕,苏燕,程旭日. 基于随机有限元的结构优化设计. 福州大学学报(自然科学版),1999,27(3):93~98
[72] 宋天齐,怀春生. 结构优化设计的有关问题商椎. 低温建筑技术. 1998,(1):18
[73] 龚景海,刘锡良. 遗传算法与网格结构杆件优化下料. 空间钢结构. 2000,15(2):26~29
[74] 赵正佳,黄洪钟,陈新. 优化设计求解的遗传-神经网络新算法研究. 2000,35(1):65~68
[75] Dyckhoff H.. A typology of cutting and packing problems. Eur.J.Opl Res. 1990,(44):145~159
[76] Gilmore P.C., Gomory R.E.. The theory and computation of knapsack functions. Opns Res. 1966 ,(14):1045~1047
[77] Gimore P.C. , Gomory R .E..A linear programming approach to the cutting stock problem-Part II. Opns Res. 1963,(11):863~887
Gilmore P.C., Gomory R.E.. Multistage cutting stock problem of two and more dimensions.
[78] Opns Res. 1965,(13):94~120
[79] Gimore P.C. , Gomory R .E..A linear programming approach to the cutting stock. Opns Res. 1961,(9):849~859
[80] Gau T. et.al.. Cutgen1: A problem generator for the standard one-dimensional cutting stock problem. Eur.J.Opl Res.1995,(84):572~579
[81] Fayard D., Zissimopoulos V.. An approximation algorithm for solving unstrained two-dimensional knapsack problem. Eur.J.Opl Res.1995,(84):562~571
[82] 周杰,李军,杨特芝等. 矩形件套裁人工智能优化排样. 锻压技术,1995,(4):19~22
[83] 文贵华,丁月华. 基于动态分割与合上的排样算法. 1999,25(12)
[84] 黄崇斌,胡吉全. 板材优化下料矩形综合法. 起重运输机械,1996,(6),28~30
[85] 曹炬.实用矩形件优化排样系统的研究与开发.锻压技术,1999,(5):19~23
[86] 刘岩,阎振华,吕建斌等. 冲裁参数计算、排样及板材下料的优化设计. 太原重型机械学院学报,1995,16(3):252~257
[87] S. P. Fekete, J. Schepers. A new exact algorithm for general orthogonal d-dimensional knapsack problems. Algorithms ESA '97, Springer Lecture Notes in Computer Science. 1997, 1284: 144~156
[88] S. Tschoke, N. Holthofer. A new parallel approach to the constrained two-dimensional cutting stock problem. In Workshop on Algorithms for Irregularly Structured Problems, LNCS. 1995: 285~299
[89] S. Martello, D. Vigo. Exact solution of the two-dimensional finite bin packing problem. Management Science, 1998, (44):388~399
[90] Beasley JE. A population heuristic for constrained two-dimensional nonguillotine cutting. Working paper available from the author at The Management School, Imperial College, London SW7 2AZ, England. 2000
[91] 张鸿宾. 组合优化问题的启发式搜索. 计算机科学. 1998,(9):211~228
[92] 刘弘,曾广周,林宗楷. 具有类比学习机制的优化排料系统. 计算机辅助设计与图形学学报,1997,9(5):436~441
[93] 黄有群,刘嘉敏,朴致淳. 剪床排样的计算机辅助设计. 小型微型计算机系统,1995,16(7):43~47
[94] 徐彦欣. 基于产生式规则的二维不规则零件的排料算法. 小型微型计算机系统,1998,19(10):48~52
[95] Oliverira J.F.,Ferrira J.S..An improved version of Wang's algorithm for two-dimensional cutting problems. Eur.J.Opl Res.1995,(84):599~617
Haessler R.W.. Controlling cutting pattern changes in one-dimensional trim problems. Opns
[96] Res. 1975,(23):483~493
[97] 刘文明,李定坤,陈建华等.计算机辅助剪床优化排样算法的研究.福州大学学报(自然科学版),1998,26(1):15~19
[98] Beasley J.E.. Algorithms for Unstrained Two-dimensional Guillotine Cutting. J. Opl Res. Soc. 1985,36(4):298~306
[99] 龚坚.二维Guillotine优化下料技术及应用研究. 重庆大学博士学位论文. 1996
[100] Guntram S, Johannes T, Gleb B. A Cutting Plane Approach for the One-Dimensional Cutting-Stock Problem. Proceedings of the 2nd International Workshop on Computer Science and Information Technologies CSIT’2000. 2000, 1: 304
[101] 刘嘉敏,张胜男,黄有群. 二维不规则形状自动排料算法的研究与实现.计算机辅助设计与图形学学报.2000,12(7):488~491
[102] 蔡正军,龚坚,刘飞.板材优化下料的数学模型的研究.重庆大学学报(自然科学版).1996,19(2):82~88
[103] 黄宜军,施德恒,许启富. 钣金CAD中一个较优的排样算法. 计算机辅助设计与图形学学报,2000,12(5):380~383
[104] 陈文亮,崔英,李磊. 基于自动碰撞技术的最优排样算法. 计算机应用研究.2000,(7):38~39
[105] Arenales.M., Gramani. Two-Staged and Constrained Two-Dimensional Guillotine Cutting Problems. Belgium:the 16th European Conference on Operational Research, 1998
[106] Qu Weishuang,Sanders J. I.. Sequence selection of stock sheets in two-dimensional layout problems. INT. J. Prod.Res.1989, 27(9):1553~1571
[107] Stadtler H. .A one-dimensional cutting stock problem in the aluminium industry and its solution. Eur. J. Opl Res. 1990,(44):209~223
[108] C. Barnhart, E.D. Johnson, G.L. Nemhauser et al..Branch and Price Column Generation for Solving Hugh Integer Programs, Operations Research, 1998, 46:316~329
[109] Paolo Toth. Optimization engineering techniques for the exact solution of NP-hard combinatorial optimization problems. Eur.J.Opl Res, 2000,125:222~238
[110] Vanderbeck F. Exact algorithm for minimizing the number of setups in the one-dimensional cutting stock problem. Operations Research. 2000,48(6):915~926
[111] C.B. et al.. Branch-and-Price Algorithms for the One-Dimensional Cutting Stock Problem. Computational Optimization and Applications, 1998 ,9: 211~228
[112] Blazewicz, J.,Walkowiak R. . Comparison of Tabu Search Approaches for Two-dimensional Irregular Cutting. Belgium:the 16th European Conference on Operational Research, 1998
Kenyon C,Remila E. Near-optimal solution to a two-dimensional cutting stock problem.
[113] Mathematics of Operations Research. 2000,25(4):645~656
[114] Kolen A W J. Solving a bi-criterion cutting stock problem with open-ended demand: A case study. Journal of the Operational Research Society. 2000,51(11):1238~1247
[115] 王凌,郑大钟.Meta-Heuristic--算法研究进展.控制与决策,2000,15(3):257~262
[116] 戴晓晖,李敏强,蔻纪凇. 遗传算法理论研究综述. 控制与决策,2000,15(3): 263~268
[117] 金炳尧. 最优化计算中的若干新技术.科技通报,2000,16(2): 119~124
[118] 谢云. 模拟退火算法综述. 微计算机信息,1998,14(5): 66~68
[119] 侯格贤,吴成柯. 遗传算法的性能分析. 控制与决策,1999,14(3):257~260
[120] 胡国四,韩生廉.遗传算法适值函数定义方法的研究.控制与决策,1999,14(6): 694~697
[121] 史奎凡,陈月辉.提高遗传算法收敛速度的方法.信息与控制,1998,27(4):289~293
[122] 王洪燕,杨敬安.并行遗传算法研究进展.计算机科学,1999,26(6):48~56
[123] 李绍军,王惠,姚平经.求解全局最优化的遗传(GA)-Alopex算法的研究.信息与控制,2000,29(4):304~314
[124] 董聪,郭晓华,袁曾任.基于广义遗传算法的全局优化方法.计算机科学,1999,26(6):7~10
[125] Randall M, Abramson D. A General Purpose Meta-heuristic Based Solver for Combinatorial Optimisation Problems. TR99-01, School of Information Technology, Bond University. 1999
[126] 罗阳.机械制造车间生产作业多智能体规划原理与板材套料优化方法的研究.四川大学博士学位论文,2001
[127] 曹炬,胡修彪.大规模矩形件优化排样的遗传算法.锻压机械,1999,(4):17~20
[128] 孟繁桢,张庆翠.用遗传算法求解最优切割方法.应用科学学报,2000,18(3):276~279
[129] 李娟,方平,周明.一种求解背包问题的混合遗传算法.南昌航空工业学院学报,1998,(3):31~35
[130] Robert Hinterding, Kate Juli . A genetic algorithm for stock cutting: an exploration of mapping schemes. Technical Report TR 24 COMP3, Victoria University of Technology, Department of Computer and Mathematical Sciences, 1993. ga:Juliff93b.
[131] R. Sharma, T. Balacahander, S. Anand, Q. Zhang. A genetic algorithm for the non-convex cutting stock problem, (with) Transactions of the North American Manufacturing Research Institute, XXV . 1997: 281 ~286
[132] R. Hinterding, L. Khan. Genetic algorithms for cutting stock problems: with and without contiguity. in Progress in Evolutionary Computation (X. Yao, ed.), vol. 956 of Lecture Notes in Articial Intelligence, (Berlin), Springer, 1995: 166~186
[133] S. Anand, T. Balachandar, R. Sharma . An integrated machine vision based system for solving the non-convex cutting stock problem using genetic algorithms. Journal of Manufacturing Systems. 1999, (18): 396 ~415
[134] 李建勇,鄂明成,曹月东. 利用混沌人工神经元网络进行布局优化计算.制造业信息化,2000,22(1):21~22
[135] 滕健,李滨慧,施洪生等. 用神经网络解决二维不规则零件的排料问题. 机械设计与制造工程,1999,28(6):61~63
[136] 曹炬,冯松. 遗传算法在矩形件优化排样中的应用. 计算机工程与应用,1999,(5):5~7
[137] Blazewicz, J.,Walkowiak R. . Comparison of Tabu Search Approaches for Two-dimensional Irregular Cutting. Belgium:the 16th European Conference on Operational Research, 1998
[138] 陈久强,殷国富. 冲压件的智能排样. 机械设计,1997,(10):24~26
[139] 冯蔚东,陈剑,冯铁军等. 虚拟企业组织设计过程模型与试应用. 计算机集成制造系统,2000,6(3):17~24
[140] 黄志清,郭钢,徐宗俊. 面向并行工程的纸包装产品设计系统研究. 包装工程,2000,21(2):1~4
[141] 童秉枢. 现代CAD.技术. 北京:清华大学出版社,2000
[142] 虞春,周雄辉,张永清. 特征造型与有限元分析的集成化研究. 计算机辅助设计与图形学学报,1999,11(1):62~65
[143] 程泽坤. 结构分析软件应用过程中潜在问题分析及处理对策. 水运工程,1998,(6):48~49
[144] 蔡永昌,骆少明,张湘伟. 面向对象的有限元静力分析程序设计. 汕头大学学报(自然科学版),1999,14(2):34~39
[145] 虞春,周雄辉,张永清. 面向有限元分析的特征建模技术. 工程设计,1999,(3):34~39
[146] 唐泉,朱湘毅,秦钜晏等. 基于Metaphase的油泵类产品并行开发过程研究及实现. 机械设计与研究,2000,(2):19~21
[147] 孙伟,徐中,刘晓冰等. CIMS环境下基于C/S模式的材料定额管理系统的研究. 机械设计与制造,2000,(4):10~11
[148] 863/CIMS主题办公室. PDM专辑. CIMS剪报,1997,5
[149] 张志英,张祥永,唐承统等. 基于PDM的CAD/CAPP/CAM集成技术的研究. 机械设计与制造,2000,(4):23~24
[150] EDS公司. PDM在企业范围内的作用. EDS用户通讯,1995,3
[151] 李银胜, 张和明等. PDM在VIPD中的应用与研究. 计算机工程与应用,1999,(1): 1~3
[152] 魏志强, 王先逵等. 基于敏捷制造环境的分布式产品数据管理技术. 清华大学学报,2000,40(8): 45~48
[153] 乐玮琳,刘清华,万立. 基于Internet/Intranet的产品数据管理系统的研究. 计算机辅助工程,1998,(4):10~13
李建明, 童秉枢, 许隆文. 产品数据管理技术的现状与发展. 计算机集成制造系统
[154] CIMS,1998,2(6): 1~5
[155] 高奇微, 莫欣农. 产品数据管理(PDM)及其实施. 北京:机械工业出版社,1998
[156] 张汉新,蔡力钢,张国军等. 基于PDM的集成化CAPP系统. 华中理工大学学报,28(4):7~9
[157] 刑竞帆. PDM在并行工程中的应用. 制造业设计技术,2000,(2): 26~28
[158] 彭继忠, 李建明等. 基于PDM的应用集成研究与实践. 计算机集成制造系统CIMS,2000,6(1): 65~68
[159] 何爱新,徐弘山. 基于PDM框架的CAD/CAPP/CAM并行集成技术研究. 计算机辅助设计与制造,1999,(8):45~48
[160] 李玉家,金华等. 并行工程与企业级产品数据管理. 机械设计与制造,1999, (4):65~68
[161] 朗波, 周长胜, 邓家提. “金银花”CAD/CAM系统数据集成平台研究. 计算机集成制造系统CIMS,1999,5(5): 69~72
[162] 李建明等. 并行工程环境中的集成框架. 中国机械工程,1998,9(10): 30~33
[163] 苏宝华,祁国宁,韩永生等. 基于结构单元的产品建模原理与实现. 计算机集成制造系统,1999,5(2):26~30
[164] 苏宝华,祁国宁,顾新建等. 结构单元的基本原理及其在产品建模中的应用. 机械科学与技术,1999,18(3):371~374
[165] 袁清珂等. 产品数据表达与交换标准STEP的研究及应用. 机械科学与技术,1997,16(6): 21~25
[166] STEP Tools Inc. http://www.steptools.com/library/standard/, 2001
[167] National Institute of Standards and Technology's web site. http://www.nist. gov/, 2001
[168] 现代集成制造系统网络CIMS北航站. http://www.buaa.cims.edu.cn/ cadcam/step_key2.htm, 2001
[169] 张卫民等. Java语言与WWW. 北京: 人民邮电出版社,1997
[170] 黄志清.网络化设计及其关键支持技术研究与实践. 重庆大学博士学位论文,2001
[171] 尹超. 区域性网络化制造系统及其产品协同开发技术的研究与应用. 重庆大学博士学位论文,2001
[172] 杨军,李思昆,郭阳等. 支持并行设计的产品数据管理. 计算机辅助设计与图形学学报,1999,3(3)
[173] 管梅谷,郑汉鼎. 线性规划. 济南: 山东科学技术出版社,1987
[174] 邓先礼. 最优化技术. 重庆: 重庆大学出版社,1998
[175] 许万蓉. 线性规划. 北京: 北京理工大学出版社,1988
[176] 魏国华,王芬. 线性规划. 北京: 高等教育出版社,1991
[177] Wooldridge M. Agent-based computing. Baltazar J.,1997
[178] 毛新军,王怀民,陈火旺,刘凤歧. Agent计算的理论框架. 计算机研究与发展,1999,36(11): 1310~1316
[179] Wooldridge M, Jennings N R. Intelligent Agents: Theories, Architectures, and Languages (LNAI Vol 890). New York: Springer-Verlag. 1995
[180] Wooldridge M, Jennings N R. Intelligent agents: theory and practice. The Knowledge Engineering Review. 1995,10(2): 115~152
[181] Muller JP, Wooldridge M, Jennings N R et. Intelligent Agents III: Agent Theories, Architectures, and Languages(LNAI Vol 1193). New York: Springer-Verlag. 1996,21~36
[182] 陈建中,刘大有,唐海鹰. 智能Agent建模的一种模板结构. 计算机研究与发展,1999,36(10): 1164~1168
[183] 朱晓芸,何钦铭,王申康. 一种基于智能Agent的协同工作模型. 计算机应用,1999,19(6):
[184] 应济,吕红兵,江力. 基于多Agent协作的设计问题求解框架. 计算机辅助设计与图形学学报,1999,11(6): 563~566
[185] 乌兰木其,邓家禔. Agent与对象. 计算机集成制造系统—CIMS,1999,5(5): 38~41
[186] Brown Michael, Allen. Julian Logistics Strategies for Europe. Logistics and Distribution Planning,1994: 122~134
[187] 何炎祥, 吴思. 基于多Agent的分布开放计算环境模型. 高技术通讯, 1998,8(6)
[188] 陈宁江,苏德富. 基于Agent的CSCW系统及其通讯实现. 广西大学学报, 2000,25(2):94~97
[189] 刘宏,袁捷. 一种基于Agent的决策支持系统生成器新框架. 计算机工程,1999,25(12)
[190] 赵福民. 基于多Agent的网络化制造系统研究. 合肥工业大学博士学位论文,2000
[191] 宋豫川. 大物流制造企业系统集成方法及工程应用研究. 重庆大学博士学位论文,2001
[192] 阎春平,刘万奇,刘希刚等. 建筑金属结构企业计算机辅助设计和生产管理集成系统. 全国高校制造自动化研究会第九届学术年会论文集. 机械工业出版社,2000.7:301~304
[193] 阎春平,宋豫川,刘飞等. 建筑金属结构企业工程设计及报价系统. 重庆大学学报(自然科学版),2001,24(1):8~11
[194] Yan Chunping,Liufei,Wangjing. Project Products Design Oriented to the Optimized Utilization of Material Resource. Proceedings of IE&EM'2001,2001,8
[195] 深圳方大集团CIMS应用示范工程验收资料之一——用户报告. 2000
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