How to cite this paper
Keliji, P., Abadi, B & Abedini, M. (2018). Investigating readiness in the Iranian steel industry through six sigma combined with fuzzy delphi and fuzzy DANP.Decision Science Letters , 7(4), 465-480.
Refrences
Antony, J. (2014). Readiness factors for the Lean Six Sigma journey in the higher education sector. International Journal of Productivity and Performance Management, 63(2), 257-264.
Ataei, M. (2010), Fuzzy Multi-criteria Decision Making, First Printing, Shahrood, Shahrood University Press,.
Azar, A., Mir Fakhreddini, H., & Anvari Rostami, A. A. (2008). A Comparative Study of Data Analysis in Six Sigma, Using Statistical Tools and Multi-Attribute Decision Techniques. Quarterly Journal of Management Researches in Iran, 12(4), 1-35.
Biedry, J. (2001). Linking Six Sigma analysis with human creativity. The Journal for Quality and Participation, 24(4), 36.
Byrne, G., Lubowe, D., & Blitz, A. (2007). Using a Lean Six Sigma approach to drive innovation. Strategy & Leadership, 35(2), 5-10.
Chakravorty, S. S. (2009). Six Sigma programs: An implementation model. International journal of production economics, 119(1), 1-16.
Chandra, A. (2008). Five Six Sigma deployment mistakes and how to avoid them. https://www.isixsigma.com/new-to-six-sigma/getting-started/5-six-sigma-deployment-mistakes-and-how-avoid-them/
Chen, M., & Lyu, J. (2009). A Lean Six-Sigma approach to touch panel quality improvement. Production Planning and Control, 20(5), 445-454.
Cheng, C. H., & Lin, Y. (2002). Evaluating the best main battle tank using fuzzy decision theory with linguistic criteria evaluation. European journal of operational research, 142(1), 174-186.
Cheng, J. H., Lee, C. M., & Tang, C. H. (2009). An application of fuzzy Delphi and fuzzy AHP on evaluating wafer supplier in semiconductor industry. WSEAS Transactions on Information Science and Applications, 6(5), 756-767.
El Haouzi, H., Pétin, J. F., & Thomas, A. (2009). Design and validation of a product-driven control system based on a six sigma methodology and discrete event simulation. Production Planning and Control, 20(6), 510-524.
Henderson, K. M., & Evans, J. R. (2000). Successful implementation of six sigma: benchmarking General Electric Company. Benchmarking: An International Journal, 7(4), 260-282.
Hensley, R. L., & Dobie, K. (2005). Assessing readiness for six sigma in a service setting. Managing Service Quality: An International Journal, 15(1), 82-101.
Jassbi, J., Mohammad nejad, F., & Nasrollahzadeh, H. (2010). A Fuzzy Dematel framework for modeling cause and effect relationship of trategy, Expert systems with applications, 38 (5),5967-5973.
Kazazi, A., & Saroukhani, D. (2005). Identification of key factors in the effective use of Six Sigma programs in different organizations (large multinational, small and medium sized organizations, services). Third International Management Conference.
Khobyari, B. (2003). Six Sigma and its role in improving the efficiency and effectiveness of the organization's processes. Organization Development, 50, 20-27.
Krueger, D. C., Mellat Parast, M., & Adams, S. (2014). Six Sigma implementation: a qualitative case study using grounded theory. Production Planning & Control, 25(10), 873-889.
Lagrosen, Y., Chebl, R., & Rios Tuesta, M. (2011). Organisational learning and Six Sigma deployment readiness evaluation: a case study. International Journal of Lean Six Sigma, 2(1), 23-40.
Lee, T. Y., Wong, W. K., & Yeung, K. W. (2011). Developing a readiness self-assessment model (RSM) for Six Sigma for China enterprises. International Journal of Quality & Reliability Management, 28(2), 169-194.
Liu, Y. C., & Chen, C. S. (2007). A new approach for application of rock mass classification on rock slope stability assessment. Engineering geology, 89(1), 129-143.
NikFarjam, R. & Norosana, R. (2009). Identification of Key Factors in the Implementation of Six Sigma Projects at Sarcheshmeh Copper Complex. Seventh International Management Conference.
Norosana, R., Saghaee, A., & Amiri, A. H. (2013). Design for Six Sigma. Tehran. Shahed University.
Rajkumar, S. (2014). Impact of implementing Six-Sigma on the workplace efficiency in service industries in Karnataka. Asia Pacific Journal of Research Vol: I Issue XIII, 5-13.
Reyes, F., Cerpa, N., Candia-Véjar, A., & Bardeen, M. (2011). The optimization of success probability for software projects using genetic algorithms. Journal of Systems and Software, 84(5), 775-785.
Saaty, T. L. (2004). Decision making—the analytic hierarchy and network processes (AHP/ANP). Journal of systems science and systems engineering, 13(1), 1-35.
Salehi Sedghiani, J., & Roustai, A. (2005). Six Sigma Position in Improving Customer Satisfaction. Accountant Journal, 20 (168), 26-29.
Snee, R. D. (2000). Impact of Six Sigma on quality engineering. Quality Engineering, 12(3), 9-14.
Sodhi, M. S., & Sodhi, N. S. (2005). Six sigma pricing. Harvard Business Review, 83(5), 135-142.
Zgardy, S. H., Bagheri, S., & Attaryan, J. (2010). Statistical Analysis of Relationships Between the Key Factors of Successful Six Sigma Projects in Selected Iranian Companies. Journal of Industrial Engineering, 44 (1), 49-62.
Zhou, Q., Huang, W., & Zhang, Y. (2011). Identifying critical success factors in emergency management using a fuzzy DEMATEL method. Safety science, 49(2), 243-252.
Ataei, M. (2010), Fuzzy Multi-criteria Decision Making, First Printing, Shahrood, Shahrood University Press,.
Azar, A., Mir Fakhreddini, H., & Anvari Rostami, A. A. (2008). A Comparative Study of Data Analysis in Six Sigma, Using Statistical Tools and Multi-Attribute Decision Techniques. Quarterly Journal of Management Researches in Iran, 12(4), 1-35.
Biedry, J. (2001). Linking Six Sigma analysis with human creativity. The Journal for Quality and Participation, 24(4), 36.
Byrne, G., Lubowe, D., & Blitz, A. (2007). Using a Lean Six Sigma approach to drive innovation. Strategy & Leadership, 35(2), 5-10.
Chakravorty, S. S. (2009). Six Sigma programs: An implementation model. International journal of production economics, 119(1), 1-16.
Chandra, A. (2008). Five Six Sigma deployment mistakes and how to avoid them. https://www.isixsigma.com/new-to-six-sigma/getting-started/5-six-sigma-deployment-mistakes-and-how-avoid-them/
Chen, M., & Lyu, J. (2009). A Lean Six-Sigma approach to touch panel quality improvement. Production Planning and Control, 20(5), 445-454.
Cheng, C. H., & Lin, Y. (2002). Evaluating the best main battle tank using fuzzy decision theory with linguistic criteria evaluation. European journal of operational research, 142(1), 174-186.
Cheng, J. H., Lee, C. M., & Tang, C. H. (2009). An application of fuzzy Delphi and fuzzy AHP on evaluating wafer supplier in semiconductor industry. WSEAS Transactions on Information Science and Applications, 6(5), 756-767.
El Haouzi, H., Pétin, J. F., & Thomas, A. (2009). Design and validation of a product-driven control system based on a six sigma methodology and discrete event simulation. Production Planning and Control, 20(6), 510-524.
Henderson, K. M., & Evans, J. R. (2000). Successful implementation of six sigma: benchmarking General Electric Company. Benchmarking: An International Journal, 7(4), 260-282.
Hensley, R. L., & Dobie, K. (2005). Assessing readiness for six sigma in a service setting. Managing Service Quality: An International Journal, 15(1), 82-101.
Jassbi, J., Mohammad nejad, F., & Nasrollahzadeh, H. (2010). A Fuzzy Dematel framework for modeling cause and effect relationship of trategy, Expert systems with applications, 38 (5),5967-5973.
Kazazi, A., & Saroukhani, D. (2005). Identification of key factors in the effective use of Six Sigma programs in different organizations (large multinational, small and medium sized organizations, services). Third International Management Conference.
Khobyari, B. (2003). Six Sigma and its role in improving the efficiency and effectiveness of the organization's processes. Organization Development, 50, 20-27.
Krueger, D. C., Mellat Parast, M., & Adams, S. (2014). Six Sigma implementation: a qualitative case study using grounded theory. Production Planning & Control, 25(10), 873-889.
Lagrosen, Y., Chebl, R., & Rios Tuesta, M. (2011). Organisational learning and Six Sigma deployment readiness evaluation: a case study. International Journal of Lean Six Sigma, 2(1), 23-40.
Lee, T. Y., Wong, W. K., & Yeung, K. W. (2011). Developing a readiness self-assessment model (RSM) for Six Sigma for China enterprises. International Journal of Quality & Reliability Management, 28(2), 169-194.
Liu, Y. C., & Chen, C. S. (2007). A new approach for application of rock mass classification on rock slope stability assessment. Engineering geology, 89(1), 129-143.
NikFarjam, R. & Norosana, R. (2009). Identification of Key Factors in the Implementation of Six Sigma Projects at Sarcheshmeh Copper Complex. Seventh International Management Conference.
Norosana, R., Saghaee, A., & Amiri, A. H. (2013). Design for Six Sigma. Tehran. Shahed University.
Rajkumar, S. (2014). Impact of implementing Six-Sigma on the workplace efficiency in service industries in Karnataka. Asia Pacific Journal of Research Vol: I Issue XIII, 5-13.
Reyes, F., Cerpa, N., Candia-Véjar, A., & Bardeen, M. (2011). The optimization of success probability for software projects using genetic algorithms. Journal of Systems and Software, 84(5), 775-785.
Saaty, T. L. (2004). Decision making—the analytic hierarchy and network processes (AHP/ANP). Journal of systems science and systems engineering, 13(1), 1-35.
Salehi Sedghiani, J., & Roustai, A. (2005). Six Sigma Position in Improving Customer Satisfaction. Accountant Journal, 20 (168), 26-29.
Snee, R. D. (2000). Impact of Six Sigma on quality engineering. Quality Engineering, 12(3), 9-14.
Sodhi, M. S., & Sodhi, N. S. (2005). Six sigma pricing. Harvard Business Review, 83(5), 135-142.
Zgardy, S. H., Bagheri, S., & Attaryan, J. (2010). Statistical Analysis of Relationships Between the Key Factors of Successful Six Sigma Projects in Selected Iranian Companies. Journal of Industrial Engineering, 44 (1), 49-62.
Zhou, Q., Huang, W., & Zhang, Y. (2011). Identifying critical success factors in emergency management using a fuzzy DEMATEL method. Safety science, 49(2), 243-252.