Authors: L. Zehtaban, D. Roller

Abstract:

Apart from geometry, functionality is one of the most significant hallmarks of a product. The functionality of a product can be considered as the fundamental justification for a product existence. Therefore a functional analysis including a complete and reliable descriptor has a high potential to improve product development process in various fields especially in knowledge-based design. One of the important applications of the functional analysis and indexing is in retrieval and design reuse concept. More than 75% of design activity for a new product development contains reusing earlier and existing design know-how. Thus, analysis and categorization of product functions concluded by functional indexing, influences directly in design optimization. This paper elucidates and evaluates major classes for functional analysis by discussing their major methods. Moreover it is finalized by presenting a noble hybrid approach for functional analysis.

Keywords: Functional analysis, design reuse, functionalindexing and representation.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1330343

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 5101

References:

[1] N. Iyer, K. Lou, S. Jayanti,Y. Kalyanaraman and K. Ramani, "Shape Based Searching For Product Lifecycle Applications", Computer-Aided Design, vol. 37, pp. 1435-1446, 2005.
[2] A. Chakrabarti, K. Shea, R. Stone, J. Cagan, M. Campbell, N. V. Hernandez and K. L. Wood, "Computer-Based Design Synthesis Research: An Overview", Journal of Computing and Information Science in Engineering, vol. 11, June 2011.
[3] H. Evrard, S. Buisine and R. Duchamp, "Assessment of the Respective Benefits of ÔÇÿAxiomatic Design-And ÔÇÿNew Products Design Method- for the Design of a Biomechanical Simulator", in Proc. ICAD2006, 4th of International Conf. on Axiomatic Design, Firenze, June 2006.
[4] A. Aoussat, 1990, La pertinence en innovation : Nécessité d-une approche plurielle, thèse ENSAM (in French).
[5] B. de la Bretesche, La méthode APTE : Analyse de la valeur, analyse fonctionnelle (Book Style), Pétrelle, 2000.
[6] APTE, http://www.methode-apte.com/, last access on Oct. 2012.
[7] R. Costadoat, L. Mathieu, H. Falgarone, Global Product Development, "Design Method Taking into Account Geometric Variations Management Along the Design Process", pp. 159-166, 2011.
[8] E. D. Semmes, "Cross Cutting Structural Design for Exploration Systems", in 45th AIAA Aerospace Sciences Meeting; Reno, NV, United States NASA, Jan. 2007.
[9] J. J. Kaufman and R. Woodhead, Simulating Innovation in Product and Services with Functional Analysis and Mapping (Book style), John Wiley & Sons, 2006.
[10] Association of French Normalization (AFNOR): Norm NF EN 12973, AFNOR, June 2000.
[11] K. T. Ulrich, S. D. Eppinger and A. Goyal, Product Design and Development (Book style), Irwin McGraw-Hill, 2008.
[12] Function Analysis Systems Technique: The Basics, Save International Society, Monograph, 1999.
[13] Draft Federal Information Processing Standards Publication 183, Announcing the Standard for Integration Definition for Function Modeling (Idef0), Dec. 1993.
[14] Prepared by the Defense Acquisition University Press, Systems Engineering Fundamentals, supplementary text, Virginia, Jan. 2001.
[15] D. Marca and C. McGowan, Structured Analysis and Design Technique (Book style), McGraw-Hill, 1987.
[16] V. Grover and W. J. Kettinger, Process Think: Winning Perspectives for Business Change in the Information Age (Book style), Idea Group Publishing, 2000, p.168.
[17] L. Miles, "Techniques of Value Analysis and Engineering (Book style)", McGraw-Hill, New York, 1961.
[18] W. G. Rodenacker, Methodisches Konstruieren (Methodical Design, 4th edn) (Book style), Berlin/Heidelberg: Springer-Verlag, 1991 (1st edn., 1970)
[19] J. Collins, B. Hagan and H. Bratt, "The Failure-Experience Matrix - a Useful DesignTool", Transactions of the ASME, Series B, Journal of Engineering in Industry, 98:1074-1079, 1976.
[20] G. Pahl and W. Beitz, Engineering Design: A Systematic Approach (Book style), Design Council, London, 1984.
[21] M. Hundal, "A Systematic Method for Developing Function Structures, Solutions and Concept Variants", in Mechanism and Machine Theory, vol. 25, pp. 243-256, 1990.
[22] Z. Hua, J. Yang, S. Coulibaly and B. Zhang, "Integration TRIZ with problem-solving tools: a literature review from 1995 to 2006". International Journal of Business Innovation and Research 1 (1-2): 111- 128., 2006.
[23] S. Szykman, J. W. Racz and R. D. Sriram, "The Representation of Function in Computer-based Design," Proc. of the 1999 ASME Design Engineering Technical Conf., 11th International Conf. on Design Theory and Methodology, Paper No. DETC99/DTM-8742, Las Vegas, NV, September. 1999.
[24] S. Szykman, J. Senfaute and R. D. Sriram, "The Use of XML for Describing Functions and Taxonomies in Computer-based Design," Proc. of the 1999 ASME Design Engineering Technical Conferences,19th Computers in Engineering Conference, Paper No. DETC99/CIE-9025, Las Vegas, NV, Sep. 1999.
[25] R. Stone and K. Wood, "Development of a Functional Basis for Design", Journal of Mechanical Design, vol. 122, no. 4, pp. 359-370, 2000.
[26] J. Hirtz, R. B. Stone, D. A. McAdams, S. Szykman and K. L. Wood, "A Functional Basis for Engineering Design: Reconciling and Evolving Previous Efforts," The Journal of Research in Engineering Design, vol. 13, no. 2, pp. 65-82, 2002.
[27] S. Szykman, J. Senfaute and R. D. Sriram, "The Use of XML for Describing Functions and Taxonomies in Computer-based Design", in Proc. 1999 ASME Design Engineering Technical Conferences (19th Computers in Engineering Conference), Paper No. DETC99/CIE-9025, Las Vegas, September 1999.
[28] Ullman DG. The mechanical design process. 2nd ed. New York: McGraw-Hill; 1997.