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AIEDAM - SpecialIssues - CFP References

Function Modeling: Benchmark Models, Problems, and Approaches

AIEDAM Special Issue, Summer 2017, Vol.31, No.3

CFP References:
  1. Summers J. D., Eckert C., and Goel A. K., 2013, “Function in Engineering: Benchmarking Representations and Models,” International Conference on Engineering Design, The Design Society, Seoul, South Korea.
  2. Eastman C. M., 1969, “Cognitive Processes and Ill-Defined Problems: A Case Study from Design,” Joint International Conference on Artificial Intelligence, Washington, DC, pp. 669–690.
  3. Pahl G., Beitz W., Wallace K., and Blessing L., 2007, Engineering Design: A Systematic Approach, Springer-Verlag London Limited, London.
  4. Collins J. A., Hagan B. T., and Bratt H. M., 1976, “The Failure-Experience Matrix—A Useful Design Tool,” J. Eng. Ind., 98(3), p. 1074.
  5. Freeman P., and Newell A., 1971, “A Model for Functional Reasoning in Design,” Second International Joint Conference on Artificial Intelligence.
  6. Rodenacker W., 1971, Methodisches Konstruieren, Springer Verlag, Berlin, Germany.
  7. Andreasen M. M., and Hein L., 1987, Integrated product development, IFS (Publications), London, UK.
  8. Hubka V., and Eder W. E., 1988, Theory of technical systems: a total concept theory for engineering design, Springer Verlag, New York, NY.
  9. V. Sembugamoorthy, B. Chandrasekaran, Sembugamoorthy V., and Chandrasekaran B., 1986, “Functional Representation of Devices and Compilation of Diagnostic Problem-Solving Systems,” Experience, Memory, and Reasoning, J. Kolodner, and C.K. Riesbeck, eds., Erlbaum, Hillsdale, NJ, pp. 47–53.
  10. Ullman D. G., Dietterich T. G., and Stauffer L. A., 1988, “A model of the mechanical design process based on empirical data,” Artif. Intell. Eng. Des. Anal. Manuf., 2(01), pp. 33–52.
  11. Bracewell R. H., and Sharpe J. E. E., 1996, “Functional Descriptions Used in Computer Support for Qualiative Scheme Generation - ‘Schemebuilder,’” Artif. Intell. Eng. Des. Anal. Manuf., 10, pp. 333–345.
  12. Goel A. K., 1997, “Design, Analogy, and Creativity,” IEEE Intell. Syst., 12(3), pp. 62–70.
  13. Kirschman C. F., and Fadel G. M., 1998, “Classifying Functions for Mechanical Design,” J. Mech. Des., 120(3), p. 475.
  14. Qian L., and Gero J. S., 1996, “Function–behavior–structure paths and their role in analogy-based design,” Artif. Intell. Eng. Des. Anal. Manuf., 10(04), pp. 289–312.
  15. Sasajima M., Kitamura Y., Ikeda M., and Mizoguchi R., 1995, “FBRL: A Function and Behavior Representation Language,” International Joint Conference on Artificial Intelligence, Montreal, Canada.
  16. Umeda Y., Ishii M., Yoshioka M., Shimomura Y., and Tomiyama T., 1996, “Supporting Conceptual Design Based on the Function-Behavior-State Modeler,” Artif. Intell. Eng. Des. Anal. Manuf., 10(4), pp. 275–288.
  17. Vescovi M., Iwasaki Y., Fikes R., and Chandrasekaran B., 1993, “CFRL: A Language for Specifying the Causal Functionality of Engineered Devices,” 11th National Conference on Artificial Intelligence, American Association for Artificial Intelligence, Washington, DC.
  18. Albers A., Thau S., and Alink T., 2008, “Support of Design Engineering Activity Through C & CM - Temporal Decomposition of Design Problems,” Tools and Methods for Competitive Engineering Conference, I. Horvath, ed., Izmir, Turkey, pp. 295–306.
  19. Chandrasekaran B., 2005, “Representing Function: Relating Functional Representation and Functional Modeling Research Streams,” Artif. Intell. Eng. Des. Anal. Manuf., 19, pp. 65–74.
  20. Erden M. S., Komoto H., van Beek T. J., D’Amelio V., Echavarria E., and Tomiyama T., 2008, “A review of function modeling: Approaches and applications,” Artif. Intell. Eng. Des. Anal. Manuf., 22(02), pp. 147–169.
  21. Gero J., and Kannengiesser U., 2002, “The Situated-Function-Behaviour-Structure Framework,” Artificial Intelligence in Design, J. Gero, ed., Kluwer Academic Publishers, Norwell, MA, pp. 89–104.
  22. Hirtz J., Stone R., McAdams D., Szykman S., and Wood K., 2002, “A Functional Basis for Engineering Design: Reconciling and Evolving Previous Efforts,” Res. Eng. Des., 13, pp. 65–82.
  23. Linz P., 2011, An Introduction to Formal Languages and Automata, Jones & Bartlett Publishers, Sudberry, MA.
  24. Schultz J., Sen C., Caldwell B., Mathieson J., Summers J. D., and Mocko G. M., 2010, “Limitations to Function Structures: A Case Study in Morphing Airfoil Design,” International Design Engineering Technical Conferences and Computers and Information in Engineering Conference, ASME, Montreal, Canada, pp. DETC2010–28559.
  25. Sen C., Summers J. D., and Mocko G. M., 2011, “A protocol to formalise function verbs to support conservation-based model checking,” J. Eng. Des., 22(11-12), pp. 765–788.
  26. Srinivasan V., Chakrabarti A., and Lindemann U., 2012, “A Framework for Describing Functions in Design,” International Design Conferences, Dubrovnik, Croatia, pp. 1111–1122.
  27. Yang S., Patil L., and Dutta D., 2010, “Function Semantic Representation (FSR): A Rule-Based Ontology for Product Functions,” ASME Trans. J. Comput. Inf. Sci. Eng., 10, p. 031001.
  28. Deng Y. M., 2002, “Function and behavior representation in conceptual mechanical design,” Artif. Intell. Eng. Des. Anal. Manuf., 16(05), pp. 343–362.
  29. Vermaas P. E., 2013, “On the Co-Existence of Engineering Meanings of Function: Four Responses and Their Methodological Implications,” Artif. Intell. Eng. Des. Anal. Manuf., 27(3), pp. 1–19.
  30. Eckert C., 2013, “That which is not form?: the practical challenges in using functional concepts in design,” Artif. Intell. Eng. Des. Anal. Manuf., 27(3), p. to appear.
  31. Crilly N., 2010, “The roles that artefacts play: technical, social and aesthetic functions,” Des. Stud., 31(4), pp. 311–344.
  32. Ullman D. G., 2010, The Mechanical Design Process, McGraw-Hill, New York, NY.
  33. Shishko R., and Aster R., 1995, “NASA systems engineering handbook,” NASA Spec. Publ., 6105.
  34. Haskins C., and Forsberg K., 2011, Systems Engineering Handbook: A Guide for System Life Cycle Processes and Activities, Incose.

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