A SIMULATION MODEL FOR MANAGING ENGINEERING CHANGES ALONG WITH NEW PRODUCT DEVELOPMENT

Weilin Li, Young B. Moon

2009

Abstract

This paper presents a process model for managing Engineering Changes (ECs) while other New Product Development (NPD) activities are being carried out in a company. The discrete-event simulation model incorporates Engineering Change Management (ECM) into an NPD environment by allowing ECs to share resources with regular NPD activities. Six model variables - (i) overlapping, (ii) NPD departmental interaction, (iii) ECM effort, (iv) resource constraints, (v) arrival rate, and (vi) resource using priority - are explored to identify how they affect lead time and productivity of both NPD and ECM. Decision-making suggestions for minimum EC impact are then drawn from an overall enterprise system level perspective based on the simulation results.

References

1. Bhuiyan, N., D. Gerwin, V. Thomson, 2004. Simulation of the New Product Development Process for Performance Improvement. Management Science. 50(12): 1690-1703.
2. Bhuiyan, N., G. Gr, V. Thomson, 2006. Engineering Change Request Management in a New Product Development Process. European Journal of Innovation Management. 9(1): 5-19.
3. Browning, T. R., R. V. Ramasesh, 2007. A Survey of Activity Network-Based Process Models for Managing Product Development Projects. J. Product Innovation Management. 16(2): 160-172.
4. Krishnan, V., S. D. Eppinger, D. E. Whitney, 1997. A Model-Based Framework to Overlap Product Development Activities. Management Science. 43(4): 437-451.
5. Loch, C. H., C. Terwiesch, 1999. Accelerating the Process of Engineering Change Orders: Capacity and Congestion Effects. J. Product Innovation Management. 16(2): 145-159.
6. Moon, Y.B. 2007, Enterprise Resource Planning (ERP): a review of the literature. International Journal of Management and Enterprise Development, 4(3): 235- 264.
7. Terwiesch, C., C. H. Loch, 1999. Managing the Process of Engineering Change Orders: The Case of the Climate Control System in Automobile Development. J. Product Innovation Management. 16(2): 160-172.
8. Wright, I.C., 1997. A Review of Research into Engineering Change Management: Implications for Product Design. Design Studies. 18: 33-42.
9. Kelton, W. David, R. P. Sadowski, D. T. Sturrock, 2006. Simulation with Arena, The McGraw-Hill Companies. London, 4th edition.

Paper Citation

in Harvard Style

Li W. and B. Moon Y. (2009). A SIMULATION MODEL FOR MANAGING ENGINEERING CHANGES ALONG WITH NEW PRODUCT DEVELOPMENT . In Proceedings of the 11th International Conference on Enterprise Information Systems - Volume 3: ICEIS, ISBN 978-989-8111-86-9, pages 13-18. DOI: 10.5220/0001852200130018

in Bibtex Style

@conference{iceis09,
author={Weilin Li and Young B. Moon},
title={A SIMULATION MODEL FOR MANAGING ENGINEERING CHANGES ALONG WITH NEW PRODUCT DEVELOPMENT},
booktitle={Proceedings of the 11th International Conference on Enterprise Information Systems - Volume 3: ICEIS,},
year={2009},
pages={13-18},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0001852200130018},
isbn={978-989-8111-86-9},
}

in EndNote Style

TY - CONF
JO - Proceedings of the 11th International Conference on Enterprise Information Systems - Volume 3: ICEIS,
TI - A SIMULATION MODEL FOR MANAGING ENGINEERING CHANGES ALONG WITH NEW PRODUCT DEVELOPMENT
SN - 978-989-8111-86-9
AU - Li W.
AU - B. Moon Y.
PY - 2009
SP - 13
EP - 18
DO - 10.5220/0001852200130018