References
- Bramall , D. 2003 . Manufacturability analysis of early product designs . International Journal of Computer Integrated Manufacturing , 16 ( 7–8 ) : 501 – 508 .
- Bronsvoort , W. F. and Noort , A. 2004 . Multiple-view feature modelling for integral product development . Computer-Aided Design , 36 ( 10 ) : 929 – 946 .
- Chen , L. , Pu , J. and Wang , X. 2002 . A general model for machinable features and its application to machinability evaluation of mechanical parts . Computer-Aided Design , 34 ( 3 ) : 239 – 249 .
- Chen , Z. M. , Gao , S. M. and Li , W. D. 2007 . An approach to incremental feature model conversion . The International Journal of Advanced Manufacturing Technology , 32 ( 1–2), 99–108 )
- Chen , Z. M. , Gao , S. M. and Peng , Q. S. 2001 . An approach to naming and identifying topological entities . Chinese Journal of Computer , 11 : 1170 – 1177 .
- Chu , C. H. , Wu , P. H. and Hsu , Y. C. 2009 . Multi-agent collaborative 3D design with geometric model at different levels of detail . Robotics and Computer-Integrated Manufacturing , 25 ( 2 ) : 334 – 347 .
- Chung , J. and Lee , K. 2002 . A framework of collaborative design environment for injection molding . Computers in Industry , 47 ( 3 ) : 319 – 337 .
- Cochrane , S. 2008 . Knowledge reuse in manufacturability analysis . Robotics and Computer-Integrated Manufacturing , 24 ( 4 ) : 508 – 513 .
- de , Cos, J. 2008 . Rapid cost estimation of metallic components for the aerospace industry . International Journal of Production Economics , 112 ( 1 ) : 470 – 482 .
- Gupta , S. K. and Nau , D. S. 1995 . Systematic approach to analysing the manufacturability of machined parts . Computer-Aided Design , 27 ( 5 ) : 323 – 342 .
- Hao , Q. 2006 . Agent-based collaborative product design engineering: an industrial case study . Computers in Industry , 57 ( 1 ) : 26 – 38 .
- Hoffman , C. M. and Joan-Arinyo , R. 1998 . CAD and the product master model . Computer-Aided Design , 30 ( 11 ) : 905 – 918 .
- Huang , G. Q. 2002 . Web-based support for collaborative product design review . Computers in Industry , 48 ( 1 ) : 71 – 88 .
- Jha , K. and Gurumoorthy , B. 2000 . Multiple feature interpretation across domains . Computers in Industry , 42 ( 1 ) : 13 – 32 .
- Jian , G. , Gao , J. and Wang , Y. L. 2010 . A multi-agent based knowledge search framework to support the product development process . International Journal of Computer Integrated Manufacturing , 23 ( 3 ) : 237 – 247 .
- Laakko , T. and Mäntylä , M. 1993 . Feature modelling by incremental feature recognition . Computer-Aided Design , 25 ( 8 ) : 479 – 492 .
- Layer , A. 2002 . Recent and future trends in cost estimation . International Journal of Computer Integrated Manufacturing , 15 ( 6 ) : 499 – 510 .
- Lee , H. , Kim , J. and Banerjee , A. 2010 . Collaborative intelligent CAD framework incorporating design history tracking algorithm . Computer-Aided Design , 42 ( 12 ) : 1125 – 1142 .
- Lee , J. Y. and Kim , K. 1998 . A feature-based approach to extracting machining features . Computer-Aided Design , 30 ( 13 ) : 1019 – 1035 .
- Li , W. D. 2004 . Feature-based design in a distributed and collaborative environment . Computer-Aided Design , 36 ( 9 ) : 775 – 797 .
- Li , W. D. 2005 . Collaborative computer-aided design – research and development status . Computer-Aided Design , 37 ( 9 ) : 931 – 940 .
- Li , Y. G. , Yan , R. J. and Jian , J. 2010 . A semantics-based approach for collaborative aircraft tooling design . Advanced Engineering Informatics , 24 ( 2 ) : 149 – 158 .
- Li , Y. G. 2010 . Feature recognition technology for aircraft structural parts based on holistic attribute adjacency graph . Proceedings of the Institution of Mechanical Engineers, Part B, Journal of Engineering Manufacture , 224 ( 2 ) : 271 – 278 .
- Ma , Y.-S. 2009 . Collaborative feature-based design via operations with a fine-grain product database . Computers in Industry , 60 ( 6 ) : 381 – 391 .
- Molcho , G. 2008 . Computer aided manufacturability analysis: closing the knowledge gap between the designer and the manufacturer . CIRP Annals – Manufacturing Technology , 57 ( 1 ) : 153 – 158 .
- Sadeghi , M. , Hadj-Hamou , K. and Noel , F. 2010 . A collaborative platform architecture for coherence management in multi-view integrated product modeling . International Journal of Computer Integrated Manufacturing , 23 ( 3 ) : 270 – 282 .
- Sharma , R. and Gao , J. X. 2002 . A progressive design and manufacturing evaluation system incorporating STEP 224 . Computer in Industry , 47 ( 2 ) : 155 – 167 .
- Shen , W. , Hao , Q. and Li , W. D. 2008 . Computer supported collaborative design: retrospective and perspective . Computers in Industry , 59 ( 9 ) : 855 – 862 .
- Shen , W. 2006 . Applications of agent systems in intelligent manufacturing: an updated review . International Journal of Advanced Engineering Informatics , 20 ( 4 ) : 415 – 431 .
- Suh , N. P. 1995 . Axiomatic design of mechanical systems . Journal of Vibration and Acoustics , 117 ( B ) : 2 – 10 .
- Sun , H. and Ahluwalia , R. S. 1995 . Feature modification in incremental feature generation . Computer-Aided Design , 27 ( 8 ) : 627 – 635 .
- Venkatachalam , A. R. 1994 . Automating manufacturability evaluation in CAD systems through expert systems approaches . Expert Systems with Applications , 7 ( 4 ) : 495 – 506 .
- Verma , A. K. and Rajotia , S. 2010 . A review of machining feature recognition methodologies . International Journal of Computer Integrated Manufacturing , 23 ( 4 ) : 353 – 368 .
- Wang , H. F. 2003 . Feature-based collaborative design . Journal of Materials Processing Technology , 139 ( 1–3 ) : 613 – 618 .
- Weustink , I. F. 2000 . A generic framework for cost estimation and cost control in product design . Journal of Materials Processing Technology , 103 ( 1 ) : 141 – 148 .
- Wu , Y. G. , Gao , S. M. and Chen , Z. C. An incremental approach to manufacturability evaluation. In . Proceedings of 34th CIRP international seminar on manufacturing systems, May 16–18, 2001, Athens, Greece, CIRP .
- Zhang , Y. F. , Fuh , J. Y.H. and Chan , W. T. 1996 . Feature-based cost estimation for packaging products using neural networks . Computers in Industry , 32 ( 1 ) : 95 – 113 .