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Application of a concept development process to evaluate process layout designs using value stream mapping and simulation

Journal Name:

  • Journal of Industrial Engineering and Management

Publication Year:

  • 2011
DOI: 
doi:10.3926/jiem.2011.v4n2.p206-230

Key Words:

Author NameUniversity of Author
Abstract (2. Language): 
Purpose: We propose and demonstrate a concept development process (CDP) as a framework to solve a value stream mapping (VSM) related process layout design optimization problem. Design/methodology/approach: A case study approach was used to demonstrate the effectiveness of CDP framework in a portable fire extinguisher manufacturing company. To facilitate the CDP application, we proposed the system coupling level index (SCLI) and simulation to evaluate the process layout design concepts. Findings: As part of the CDP framework application, three process layout design concepts - current layout (CL), express lane layout (ELL) and independent zone layout (IZL) - were generated. Then, the SCLI excluded CL and simulation selected IZL as the best concept. The simulation was also applied to optimize the performance of IZL in terms of the number of pallets. Based on this case study, we concluded that CDP framework worked well. Research limitations/implications: The process layout design optimization issue has not been well addressed in the VSM literature. We believe that this paper initiated the relevant discussion by showing the feasibility of CDP as a framework in this issue. Practical implications: The CDP and SCLI are very practice-oriented approaches in the sense that they do not require any complex analytical knowledge. Originality/value: We discussed a not well-addressed issue with a systematic framework. In addition, the SCLI presented was also unique.
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FULL TEXT (PDF): 
PDF icon arastrmx_141136_4_pp_206-230.pdf
  • 2
206-230
  • English

REFERENCES

References: 

Abdulmalek, F. A., & Rajgopal, J. (2007). Analyzing the benefits of lean manufacturing and value stream mapping via simulation: A process sector case study. International Journal of Production Economics, 107(1), 223-236. doi:10.1016/j.ijpe.2006.09.009
Allen, B., & Khoshgoftaar, T.M. (1999). Measuring coupling and cohesion: an information-theory approach. Proceeding of Sixth International Software Metrics Symposium, Nov 04 – Nov 06, Boca Raton, FL, pp. 119 – 127.
Defense Acquisition University (2001). System Engineering Fundamental. Defense Acquisition University Press, Fort Belvoir, VA.
Duggan, K. (2002). Creating mixed model value streams. New York, NY: Productivity Press.
Flexsim (2006). Flexsim Simulation Software User Guide Version 3.5. Flexsim Software Products Inc.
Ferrin, D. M., Miller M. J., & Muthler D. (2005). Lean sigma and simulation, so what’s the correlation? Proceedings of the 2005 Winter Simulation Conference. Paper presented at the 2005 Winter Simulation Conference, Orlando, Florida.
Grimard, C., Marvel, J. H., & Standridge C. R. (2005). Validation of the re-design of a manufacturing work cell using simulation. Proceedings of the 2005 Winter Simulation Conference, Orlando, Florida. doi:10.1109/WSC.2005.1574402
Hung, K.-T., & Liker, J. K. (2007). A simulation study of pull system responsiveness considering production condition influences. International Journal of Industrial and Systems Engineering, 2(2), 123-136. doi:10.1504/IJISE.2007.011924
Jeong, K., & Hong, J.. (2009). A simulation study for fire extinguisher manufacturing process layout design. International Journal of Management Science and Engineering Management, 4(4), 281-293.
Lian, Y. H., & Van Landeghem, H. (2007). Analyzing the effects of Lean manufacturing using a value stream mapping-based simulation generator. International Journal of Production Research, 45(13), 3037-3058. doi:10.1080/00207540600791590
Maas, S., & Standridge, C. (2005). Applying simulation to iterative manufacturing cell design. Proceedings of the 2005 Winter Simulation Conference, Orlando, Florida. doi:10.1109/WSC.2005.1574403
Marvel, J., & Standridge, C. (2009). A simulation-enhanced lean design process. Journal of Industrial Engineering and Management, 2(1), 99-113.
McDonald, T., Van Aken, E., & Rentes, A. (2002). Utilizing Simulation to Enhance Value Stream Mapping: A Manufacturing Case Application. International Journal of Logistics, 5(2), 213-232. doi:10.1080/13675560210148696
Mehra, S., Inman, R. A., & Tuite, G. (2006). A simulation-based comparison of batch sizes in a continuous processing industry. Production Planning & Control, 17(1), 54-66. doi:10.1080/09537280500363883
NASA (2007). Systems Engineering Handbook, Washington DC.
SigmaFlow. (2006). Process simulation. Retrieved December 15th, 2010, from http://www.sigmaflow.com/vsm/vsm_software.html.
Ulrich, Karl T., & Eppinger, Steven D. (2008). Product Design and Development. Boston: McGraw-Hill.

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