Feature-based design: Four hypotheses for future CAD systems

Anderson, D. C. and Chang, T. C., “Geometric Reasoning in Feature Based Design and Process Planning,”Computer Graphics, 14(2), 1990.

Arbab, F., “Requirements and Architecture of CAM oriented CAD systems for Design and Manufacture of Mechanical Parts,” PhD Thesis, University of California at Los Angeles, 1982.

Baxter, J. E., Juster, N. J., and de Pennington, A., “An Assessment of Assembly Mating Conditions in the Context of a Product Model,” ASME Computers in Engineering Conference, vol. 1, pp. 421–428, 1992.

Bonner, D. L., Jakiela, M. J., and Watanabe, M., “Pseudoedge: A Hierarchical Skeletal Modeler for the Design of Structural Components,” ASME Design Automation Conference, Miami, 1991.

Cavendish, J. C. and Marin, S. P., “Feature-Based Surface Design and Machining,”IEEE Computer Graphics and Applications, pp. 61–68, September, 1992.

Chen, Y.-M., Miller, R. A., and Liu, S.-C., “Spatial Reasoning on Form Feature Interactions for Manufacturability Assessment,” ASME Computers in Engineering Conference, San Francisco, pp. 29–36, 1992.

Chuang, S.-H. and Henderson, M. R., “Compound Feature Recognition by Web Grammar Parsing,”Research in Engineering Design, 2(3), 1991.

Cunningham, J. J. and Dixon, J. R., “Designing with Features: The Origin of Features,” ASME Computers in Engineering Conference, San Francisco, pp. 237–244, August, 1988.

Cutkosky, M., Tenenbaum, J. M., and Muller, D., “Features in Process-Based Design,” ASME Computers in Engineering Conference, San Francisco, 1988.

Cutkosky, M., Tenenbaum, J. M., and Brown, D. R., “Working with Multiple Representations in a Concurrent Design System,”ASME J. of Mechanical Design, 114(3), 1992, pp. 515–524.

Da Silva, R. E., Wood, K. L., and Beaman, J. J., “Representing and Manipulating Interacting and Interfeature Relationships in Engineering Design for Manufacturing,” ASME Design Automation Conference, Chieago, 1990.

Dong, X. and Wozny, M. J., “FRAFES: A Frame-Based Feature Extraction System,” International Conference on Computer Integrated Manufacturing, Rensselaer Polytechnic Institute, Troy, NY, pp. 296–305, 1988.

Finger, S. and Safier, S., “Representing and Recognizing Features in Mechanical Design,” ASME Design Theory and Methodology Conference, Chicago, Sept. 1990.

Fitzhorn, P. A., “A Computational Theory of Design,”Design Computing, 3(1), 1988.

Gossard, D. C., Zuffante, R. P., and Sakurai, H., “Representing Dimensions, Tolerances, and Features in MCAE Systems,”IEEE Computer Graphics and Applications, 8(2), pp. 51–59, March, 1988.

Henderson, M. R. and Anderson, D. C., “Computer Recognition and Extraction of Form Features: A CAD/CAM Link,”Computers in Industry, 5, pp. 329–339, 1984.

Hernandez, J. A., Peters, T. J., Whitney, D. E., Luby, S. C., Gustavson, R. E., Leung, H. W., Hutchins, P. M., De Fazio, T. L., Nevins, J. L., Edsall, A. C., Metzinger, R. W., and Tung, K. K., “Intelligent Decision Support for Assembly System Design,” Innovative Applications of Artificial Intelligence 3, AAAI Press & MIT Press, 1991.

Hummel, K. E. and Brown, C. W., “The Role of Features in the Implementation of Concurrent Product and Process Design,” ASME Winter Annual Meeting, 1989.

Ishii, K., Hornberger, L., and Liou, M., “Compatibility-Based Design for Injection Molding,” ASME Winter Annual Meeting, San Francisco, 1989.

Joshi, S. and Chang, T., “Graph Based Heuristics for Recognition of Machined Features from a 3D Model,”Computer-Aided Design, 20(2), pp. 58–66, March, 1988.

Karinthi, R., and Nau, D., “Handling Feature Interactions Using a Feature Algebra,” Proceedings AAAI-90, 1990.

Keirouz, W., Pabon, J., and Young, R., “Integrating Parametric Geometry, Features, and Variational Modeling for Conceptual Design,” ASME Design Theory and Methodology Conference, pp. 1–9, 1990.

Kim, Y. S., “Recognition of Form Features Using Convex Decomposition,”Computer-Aided Design, 24(9), pp. 461–476, Sept. 1992.

Kyprianou, L. K., “Shape Classification in Computer-Aided Design,” PhD Thesis, Cambridge University, July, 1980.

Lee, K. and Kwon, B. W., “Efficient Modeling Method of Sheet Objects,” ASME Computers in Engineering Conference, Vol. 1, pp. 437–446, 1992.

Libardi, E. C., Dixon, J. R., and Simmons, M. K., “Designing with Features: Design and Analysis of Extrusions as an Example,” ASME Paper 86-DE-4, Presented at the Design Engineering Conference, Chicago, March, 1986.

Libardi, E. C., Dixon, J. R., and Simmons, M. K., “Computer Environments for the Design of Mechanical Assemblies: A Research Review,”Engineering with Computers, Vol. 3, pp. 121–136, 1988.

Light, R. and Gossard, D., “Modification of Geometric Models through Variational Geometry,”Computer-Aided Design, 14(4), pp. 209–214, 1982.

Longenecker, S. N. and Fitzhorn, P. A., “Form + Function + Algebra = Feature Grammars,”Design Theory '88, S. L. Newsomeet al., eds, Springer-Verlag, 1988.

Longenecker, S. N. and Fitzhorn, P. A., “A Shape Grammar for Non-Manifold Modeling,Research in Engineering Design, 2(3), 1991.

Luby, S. C., Dixon, J. R., and Simmons, M. K., “Creating and Using a Features Database,”Computers in Mechanical Engineering, pp. 25–33, Nov. 1986.

Mahajan, P. V., Poli, C., Rosen, D. W., and Wozny, M. J., “Design for Stamping—A Feature-Based Approach,” ASME National Design Show and Conference, Chicago, March, 1993.

Mantyla, M., “A Modeling System for Top-down Design of Assembled Products,”IBM J. of Res. Dev., 34(5), pp. 636–657, Sept. 1990.

Morris, G. H. and Haynes, L. S., “Robotic Assembly by Constraints,” IEEE International Conference on Robotics and Automation, pp. 1507–1515, 1987.

Nielsen, E. H., Designing Mechanical Components with Features, PhD Thesis, University of Massachusetts, Amherst, 1991.

Nielsen, E. H., Dixon, J. R., and Zinsmeister, G. E., “Capturing and Using Design Intent in a Design-With-Features System,” ASME Design Theory and Methodology Conference, pp. 95–102, 1991.

Product Data Representation and Exchange, Part 48, “Industrial Automation Systems—Product Data Representation and Exchange: Integrated Generic Resources: Form Features,” ISO TC184/SC4/WG3, 1992.

Pinilla, J. M., Finger, S., and Prinz, F., “Shape Feature Description and Recognition Using an Augmented Topology Graph Grammar,” NSF Engineering Design Research Conference, Amherst, Mass., 1989.

Pratt, M. J., “Solid Modeling and the Interface between Design and Manufacture,”IEEE Computer Graphics and Applications, pp. 52–59, July, 1984.

Requicha, A. A. G., “Representations for Rigid Solids: Theory, Methods, and Systems,”ACM Computing Surveys, 12(4), pp. 437–464, December, 1980.

Robertson, D., Ulrich, K., and Filerman, M., “CAD and Cognitive Complexity: Beyond the Drafting Board Metaphor,”Manufacturing Review, 4(3), Sept. 1991.

Rocheleau, D. N. and Lee, K., “System for Interactive Assembly Modeling,”Computer-Aided Design, 17(1), pp. 65–72, 1987.

Rosen, D. W., “A Feature-Based Representation to Support the Design Process and the Manufacturability Evaluation of Mechanical Components,” PhD Thesis, University of Massachusetts, Amherst, 1992.

Rosen, D. W., Dixon, J. R., Poli, C., and Dong, X., “Features and Algorithms for Tooling Cost Evaluation in Injection Molding and Die Casting,” ASME Computers in Engineering Conference, San Francisco, pp. 45–52, 1992.

Rosen, D. W., Dixon, J. R., and Finger, S., “Conversions of Feature-Based Representations Via Graph Grammar Parsing,” ASME Design Theory and Methodology Conference, pp. 83–92, 1992.

Rosen, D. W. and Dixon, J. R. “Languages for Feature-Based Design and Manufacturability Evaluation,”Int'l J. of Systems Automation: Research and Applications, 2(4), pp. 353–373, 1992.

Rosen, D. W. and Peters, T. J., “Topological Properties that Model Feature-Based Representation Conversions within Concurrent Engineering,”Research in Engineering Design, 4(3), pp. 147–158, 1992.

Sahu, K. and Grosse, I. R. “Extending the Manufacturability Approach to 3-D Configuration Designs,” ASME Computers in Engineering Conference, Boston, pp. 25–32, 1990.

Shah, J. J.,et al., “Current Status of Features Technology,” Report #R-88-04.1, CAM-I, Arlington, Texas, 1988.

Shah, J. J., “Feature Transformations Between Application-Specific Feature Spaces,”Journal of Computer Aided Engineering, 5(6), pp. 247–255, December 1988.

Shah, J. J.,et al., “The A.S.U. Features Testbed: An Overview,” ASME Computers in Engineering Conference, Vol. 1, pp. 233–242, 1990.

Shah, J. J., “Assessment of Features Technology,”Computer-Aided Design, 23(5), June 1991.

Shah, J. J., “Conceptual Development of Form Features and Feature Modelers,”Research in Engineering Design, 2(2), pp. 93–108, 1991.

Shah, J. J. and Tadepalli, R., “Feature Based Assembly Modeling,” ASME Computers in Engineering Conference, Vol. 1, pp. 253–260, 1992.

Shapiro, V. and Voelcker, H., “On the Role of Geometry in Mechanical Design,”Research in Engineering Design, 1(1), pp. 69–73, 1989.

Sodhi, R. and Turner, J. U., “Representing Tolerance and Assembly Information in a Feature-Based Design Environment,” ASME Design Automation Conference, DE-I, Vol. 32-1, pp. 101–108, 1991.

Staley, S., Henderson, M. R., and Anderson, D. C., “Using Syntactic Pattern Recognition to Extract Feature Information from a Solid Model Data Base,Computers in Mechanical Engineering, Sept. 1983, pp. 61–66.

Suh, N. P.,The Principles of Design, Oxford University Press, New York, 1990.

Vaghul, M., Dixon, J. R., Zinsmeister, G. E., and Simmons, M. K., “Expert Systems in a CAD Environment: Injection Molding Part Design as an Example,” ASME Computers in Engineering Conference, Boston, 1985.

Vandenbrande, J. and Requicha, A., “Spatial Reasoning for Automatic Recognition of Interacting Form Features,” ASME Computers in Engineering Conference, Boston, 1990.

Wade, J. and Colton, J. S., “A Framework for Feature-Based Representation of the Design Process,”Engineering with Computers, Vol. 6, 185–192, 1990.

Ward, A. C. “Some Language-Based Approaches to Concurrent Engineering,”Int'l J. of Systems Automation: Research and Applications, 2(4), pp. 335–351, 1992.

Wozny, M. J.,et al., “A Unified Representation to Support Evaluation of Designs for Manufacturability: Phase II,” NSF Grantees Conference on Design and Manufacturing Systems, Atlanta, 1992.