1 |
Aboelmaged, M. G. (2010), Six Sigma quality: a structured review and implications for future research, International Journal of Quality and Reliability Management, 27(3), 268-317.
DOI
|
2 |
Agarwal, R. (2006), Managing outsourcing: IT or business, Proceedings of the International Conference on Recent Trends in Information Systems, Thiruvencheery, India, 662-666.
|
3 |
Andersson, R., Eriksson, H., and Torstensson, H. (2006), Similarities and differences between TQM, Six Sigma and lean, The TQM Magazine, 18(3), 282- 296.
DOI
|
4 |
Antony, J. (2002), Design for Six Sigma: a breakthrough business improvement strategy for achieving competitive advantage, Work Study, 51(1), 6-8.
DOI
|
5 |
Atwood, J. (2005), Using design for Six Sigma, iSIXSIGMA Magazine, 1(4), 1-7.
|
6 |
Chatt, D. M., Hendricks, M. E., and Wintersteen, D. C. (2008), Joint design for electronics cooling heat exchangers project example, iSIXSIGMA Magazine, 4(4), 1-7.
|
7 |
Chowdhury, S. (2002), Design for Six Sigma: the Revolutionary Process for Achieving Extraordinary Profits, Dearborn Trade Publishing, Chicago, IL.
|
8 |
Chung, Y. C. and Hsu, Y. W. (2010), Research on the correlation between design for Six Sigma implementation activity levels, new product development strategies and new product development performance in Taiwan's high-tech manufacturers, Total Quality Management & Business Excellence, 21(6), 603-616.
DOI
|
9 |
Creveling, C. M., Slutscky, J., and Antis, D. (2003), Design for Six Sigma in Technology and Product Development, Prentice Hall, Upper Saddle River, NJ.
|
10 |
Dean, F. F., Bentz, B., and Bahill, A. T. (1997), A road map for implementing systems engineering, SAND 97-0412, Sandia National Labs., Albuquerque, NM.
|
11 |
EIA (1999), ANSI/EIA-632-1998: Processes for Engineering a System, Electronic Industries Association, Arlington, VA.
|
12 |
Harry, M. J. and Schroeder, R. (2000), Six Sigma: The Breakthrough Management Strategy Revolutionizing the World's Top Corporations, Currency, New York, NJ.
|
13 |
Hasenkamp, T. (2010), Engineering Design for Six Sigma: a systematic approach, Quality and Reliability Engineering International, 26(4), 317-324.
|
14 |
Hilderbrand, B. (2007), Photoreceptor belt tensioning system project example, iSIXSIGMA Magazine, 3 (4), 1-7.
|
15 |
Honour, E. C., Axelband, E., and Rhodes, D. (2004), Value of systems engineering, Technical Report, Lean Aerospace Initiative, Pensacola, FL.
|
16 |
Honour, E. C. and Valerdi, R. (2006), Advancing an ontology for systems engineering to allow consistent measurement, Proceedings of the Conference on Systems Engineering Research, Los Angeles, CA, 1-12.
|
17 |
IEEE (1999), 1220-1998 IEEE Standard for Application and Management of the Systems Engineering Process, Institute of Electrical and Electronics Engineers, Piscataway, NJ.
|
18 |
Judd, T. (2005), Program level design for Six Sigma, SAE Technical Report 2005-01-1210, SAE International, Warrendale, PA.
|
19 |
INCOSE (2007), Systems Engineering Handbook: a Guide for System Life Cycle Processes and Activities, International Council on Systems Engineering, Seattle, WA.
|
20 |
ISO (2002), ISO/IEC 15288: 2002-Systems Engineering: System Life Cycle Processes, International Organization for Standardization, Geneva, Switzerland.
|
21 |
Kasser, J. E. (2010), Seven systems engineering myths and the corresponding realities, Proceedings of the Systems Engineering Test and Evaluation Conference, Adelaide, Australia, 1-13.
|
22 |
Kiemele, M. J. (2003), Using the design for Six Sigma (DFSS) approach to design, test, and evaluate to reduce program risk, Proceedings of the NDIA Software Test and Evaluation Summit/Workship, Victoria, Canada.
|
23 |
Park, S. H. (2003), Six Sigma for Quality and Productivity Promotion, Asian Productivity Organization, Tokyo, Japan.
|
24 |
Sheard, S. A. and Lake, J. G. (1998), Systems engineering standards and models compared, Proceedings of the 8th Annual International Symposium of INCOSE, Vancouver, Canada.
|
25 |
Soderborg, N. R. (2004), Design for Six Sigma at Ford, Six Sigma Forum Magazine, 4(1), 15-22.
|
26 |
Tennant, G. (2002), Design for Six Sigma: Launching New Products and Services without Failure, Gower Publishing, Burlington, VT.
|
27 |
Treichler, D. H. (2005), Design for Six Sigma: lessons learned: embedding DFSS within an organization's culture, Technology Today, 1, 20-21.
|
28 |
US Department of Defense (1991), MIL-STD-499B Draft 910515: systems engineering, US Department of Defense, Washington, DC.
|
29 |
Vanek, F., Jackson, P., and Grzybowski, R. (2008), Systems engineering metrics and applications in product development: A critical literature review and agenda for further research, Systems Engineering, 11(2), 107-124.
DOI
|
30 |
Vandervort, C. L. and Kudlacik, E. L. (2001), GE generator technology update, GE Power Systems, Schenectady, NY, http://www.ge-energy.com/content/ multimedia/_files/downloads/ger4203.pdf.
|
31 |
Watson, G. H. and DeYoung, C. F. (2010), Design for Six Sigma: caveat emptor, International Journal of Lean Six Sigma, 1(1), 66-84.
DOI
|
32 |
Wong, P. W. (2007), Motorola and Six Sigma, Proceedings of ASTD International Conference & Exposition, Atlanta, GA, W110.
|
33 |
Yang, K. and El-Haik, B. (2003), Design for Six Sigma: A Roadmap for Product Development, McGraw- Hill, New York, NY.
|
34 |
Yoon, H. K. and Byun, J. H. (2011), A program level application of design for Six Sigma in the aircraft industry, Industrial Engineering and Management Systems, 10(3), 232-237.
DOI
|