Proposal of Consistency Management Method Between Product and its Life Cycle for Supporting Life Cycle Design

Eisuke Kunii; Takeshi Matsuura; Shinichi Fukushige; Yasushi Umeda

doi:10.20965/ijat.2012.p0272

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IJAT Vol.6 No.3 pp. 272-278

doi: 10.20965/ijat.2012.p0272

(2012)

Paper:

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Proposal of Consistency Management Method Between Product and its Life Cycle for Supporting Life Cycle Design

Eisuke Kunii, Takeshi Matsuura, Shinichi Fukushige,
and Yasushi Umeda

Department of Mechanical Engineering, Graduate School of Engineering, Osaka University, 2-1 Yamada-Oka, Suita, Osaka 565-0871, Japan

Received:

November 24, 2011

Accepted:

February 6, 2012

Published:

May 5, 2012

Keywords:

life cycle design, CAD, consistency management

Abstract

In order to increase value and reduce environmental loads and resource consumption over the entire product life cycle, a designer should design a product life cycle as well as a product in an integrated manner. In order to support such integrated life cycle design, we are currently developing Life Cycle CAD (LC-CAD) system. Indispensable requirements for LC-CAD system include the following three points: (1) Representing a product and its life cycle in an integrated manner, (2) Managing the consistency of the relationship between a product and its life cycle, and (3) Life cycle evaluation by using the information of a product and its life cycle. This paper focuses on the function (1) and (2), and proposes a method of consistency management between a product and its life cycle. For this purpose, this paper proposes a method for representing a product and its life cycle with defining the relationship between these two models. Then, this paper proposes a management scheme for the consistency of the relationship. We developed a prototype systemand applied it to design of Liquid Cristal Display (LCD) TV as a case study. The result indicates that the relationship between a product and its life cycle is successfully represented and managed, and that a designer can design them in an integrated manner.

Cite this article as:

E. Kunii, T. Matsuura, S. Fukushige, and Y. Umeda, “Proposal of Consistency Management Method Between Product and its Life Cycle for Supporting Life Cycle Design,” Int. J. Automation Technol., Vol.6 No.3, pp. 272-278, 2012.

Data files:

References

[1] F. Kimura, “Life cycle design for inverse manufacturing,” Proc. of Eco Design 1999, Tokyo, Japan, pp. 995-999, 1999.
[2] H. Kobayashi, “A Method of Life Cycle Planning for Product Eco-improvement,” Int. J. of Environmentally Conscious Design & Manufacturing, No.8, pp. 27-37, 2000.
[3] S. Fukushige, E. Kunii, K. Yamamoto, and Y. Umeda, “A Design Support System for Scenario-based Lifecycle Design,” Proc. of ASME 2011 IDETC/CIE 2011: 14th DFMLC, Washington DC, USA, DETC2011-47447(CD-ROM), 2011.
[4] M. Kwak and M. Kim Harrison, “Evaluating End-of-Life Recovery Profit by a Simultaneous Consideration of Product Design and Recovery Network Design,” J. ofMechanical Design, ASME, Vol.132, Issue7, 2010.
[5] T. Fasoli, S. Terzi, et al., “Challenges in Data Management in Product Life Cycle Engineering,” Proc. of the 18th CIRP Int. Conf. on Life Cycle Engineering, Springer, Germany, pp. 525-530, 2011.
[6] J. R. Duflou, G. Seliger, S. Kara, Y. Umeda, A. Ometto, and B. Willems, “Efficiency and feasibility of product disassembly: A case-based study,” Annals of the CIRP, Vol.57, No.2, pp. 583-600, 2008.
[7] F. J. A. M. van Houten, T. Tomiyama, and O. W. Salomons, “Product Modeling for Model-Based Maintenance,” Annals of the CIRP, Vol.47, No.1, pp. 123-128, 1998.
[8] T. Chi Kuo, “The construction of a collaborative-design platform to support waste electrical and electronic equipment recycling,” Robotics and Computer-Integrated Manufacturing, Vol.26, No.1, pp. 100-108, 2010.
[9] K. Masui, “Current Status of Environmentally Conscious Design among Japanese Manufacturers,” Int. J. of Automation Technology, Vol.3, No.1, 2009.
[10] Y. Umeda, et al., “Study on Life-cycle Design for the Post Mass Production Paradigm,” Artificial Intelligence for Engineering Design, Analysis andManufacturing, Vol.14, No.2, pp. 149-161, 2000.
[11] J. Yagi, K. Kumazawa, et al., “Technical Research Report on ecofriendly product and easy recycling product design of global products in 2007,” The Japan Machinery Federation, 2008. (in Japanese)
[12] patent: Fluorescent tube bin and fluorescent collecting method using this tube bin and recycling method of liquid crystal display device, No.2009-113871 (P2009-113871A), SHARP Corp. (in Japanese)

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] F. Kimura, “Life cycle design for inverse manufacturing,” Proc. of Eco Design 1999, Tokyo, Japan, pp. 995-999, 1999.

[2] [2] H. Kobayashi, “A Method of Life Cycle Planning for Product Eco-improvement,” Int. J. of Environmentally Conscious Design & Manufacturing, No.8, pp. 27-37, 2000.

[3] [3] S. Fukushige, E. Kunii, K. Yamamoto, and Y. Umeda, “A Design Support System for Scenario-based Lifecycle Design,” Proc. of ASME 2011 IDETC/CIE 2011: 14th DFMLC, Washington DC, USA, DETC2011-47447(CD-ROM), 2011.

[4] [4] M. Kwak and M. Kim Harrison, “Evaluating End-of-Life Recovery Profit by a Simultaneous Consideration of Product Design and Recovery Network Design,” J. ofMechanical Design, ASME, Vol.132, Issue7, 2010.

[5] [5] T. Fasoli, S. Terzi, et al., “Challenges in Data Management in Product Life Cycle Engineering,” Proc. of the 18th CIRP Int. Conf. on Life Cycle Engineering, Springer, Germany, pp. 525-530, 2011.

[6] [6] J. R. Duflou, G. Seliger, S. Kara, Y. Umeda, A. Ometto, and B. Willems, “Efficiency and feasibility of product disassembly: A case-based study,” Annals of the CIRP, Vol.57, No.2, pp. 583-600, 2008.

[7] [7] F. J. A. M. van Houten, T. Tomiyama, and O. W. Salomons, “Product Modeling for Model-Based Maintenance,” Annals of the CIRP, Vol.47, No.1, pp. 123-128, 1998.

[8] [8] T. Chi Kuo, “The construction of a collaborative-design platform to support waste electrical and electronic equipment recycling,” Robotics and Computer-Integrated Manufacturing, Vol.26, No.1, pp. 100-108, 2010.

[9] [9] K. Masui, “Current Status of Environmentally Conscious Design among Japanese Manufacturers,” Int. J. of Automation Technology, Vol.3, No.1, 2009.

[10] [10] Y. Umeda, et al., “Study on Life-cycle Design for the Post Mass Production Paradigm,” Artificial Intelligence for Engineering Design, Analysis andManufacturing, Vol.14, No.2, pp. 149-161, 2000.

[11] [11] J. Yagi, K. Kumazawa, et al., “Technical Research Report on ecofriendly product and easy recycling product design of global products in 2007,” The Japan Machinery Federation, 2008. (in Japanese)

[12] [12] patent: Fluorescent tube bin and fluorescent collecting method using this tube bin and recycling method of liquid crystal display device, No.2009-113871 (P2009-113871A), SHARP Corp. (in Japanese)

Proposal of Consistency Management Method Between Product and its Life Cycle for Supporting Life Cycle Design

Eisuke Kunii, Takeshi Matsuura, Shinichi Fukushige, and Yasushi Umeda

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Eisuke Kunii, Takeshi Matsuura, Shinichi Fukushige,
and Yasushi Umeda