How to cite this paper
Aikhuele, D. (2017). Systematic model for lean product development implementation in an automotive related company.Management Science Letters , 7(7), 337-350.
Refrences
Aikhuele, D. O., & Turan, F. B. M. (2016a). An improved methodology for multi-criteria evaluations in the shipping industry. Brodogradnja, 67(3), 59-72.
Aikhuele, D. O., & Faiz, M. T. (2016b). An interval fuzzy-valued M-TOPSIS model for design concept selection. The National Conference for Postgraduate Research 2016, Universiti Malaysia Pahang, 374–84.
Aikhuele, D. O., & Turan, F. M. (2016c). A Hybrid Fuzzy Model for Lean Product Development Per-formance Measurement. In IOP Conference Series: Materials Science and Engineering (Vol. 114, No. 1, p. 012048). IOP Publishing.
Aikhuele, D. O., & Turan, F. M. (2016d). Proposal for a Conceptual Model for Evaluating Lean Product Development Performance: A Study of LPD Enablers in Manufacturing Companies. In IOP Conference Series: Materials Science and Engineering (Vol. 114, No. 1, p. 012047). IOP Publishing.
Al-Ashaab, A., Golob, M., Urrutia, U. A., Gourdin, M., Petritsch, C., Summers, M., & El-Nounu, A. (2016). Development and application of lean product development performance measurement tool. International Journal of Computer Integrated Manufacturing, 29(3), 342-354.
Al-Ashaab, A., Shehab, E., Alam, R., Sopelana, A., Sorli, M., Flores, M., ... & James-Moore, M. (2010). The conceptual leanPPD model. In New World Situation: New Directions in Concurrent Engineering (pp. 339-346). Springer London.
Azeem, M., & Gondal, M. B. (2011). Prototype framework: prototypes, prototyping and piloting in terms of quality insurance. Academic Research International 1(2), 301–307.
Azizi, A., & Aikhuele, D. O. (2015, March). An integrated model of Kano and quality function de-ployment for evaluation of lean production tools in assembly environment. In Industrial Engineer-ing and Operations Management (IEOM), 2015 International Conference on (pp. 1-6). IEEE.
Berger, A. (1997). Continuous improvement and kaizen: standardization and organizational de-signs. Integrated manufacturing systems, 8(2), 110-117.
Carulli, M., Bordegoni, M., & Cugini, U. (2013). An approach for capturing the voice of the customer based on virtual prototyping. Journal of Intelligent Manufacturing, 24(5), 887-903.
Chase, J. P. (2000). Measuring value in product development. Massachusetts Institute of Technology.
Chen, S. M., & Tan, J. M. (1994). Handling multicriteria fuzzy decision-making problems based on vague set theory. Fuzzy sets and systems, 67(2), 163-172.
Chou, S. Y., Vincent, F. Y., Dewabharata, A., & Dat, L. Q. (2012, November). A fuzzy TOPSIS ap-proach for medical provider selection and evaluation. In Fuzzy Theory and it's Applications (iFUZZY), 2012 International Conference on (pp. 322-326). IEEE.
Furuhjelm, J., Swan, H., & Tingström, J. (2011, August). Creating value through lean product devel-opment: applying lean principles. In Proceedings of the 18th International Conference on Engineer-ing Design (ICED 11)(8 pp.) Copenhagen: The Design Society.
Gershenson, J. K., & Pavnaskar, S. J. (2003). Eight Basic Lean Product Development Tools. In DS 31: Proceedings of ICED 03, the 14th International Conference on Engineering Design, Stockholm.
Haque, B., & Moore, M. J. (2004). Measures of performance for lean product introduction in the aero-space industry. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engi-neering Manufacture, 218(10), 1387-1398.
Harland, P. E., & Uddin, Z. (2014). Effects of product platform development: fostering lean product development and production. International Journal of Product Development 18, 19(5-6), 259-285.
Hines, P., Francis, M., & Found, P. (2006). Towards lean product lifecycle management: a framework for new product development. Journal of Manufacturing Technology Management, 17(7), 866-887.
Hoppmann, J., Rebentisch, E., Dombrowski, U., & Zahn, T. (2011). A framework for organizing lean product development. Engineering Management Journal, 23(1), 3-15.
Hwang, C. L., & Yoon, K. (1981). Multiple Attribute Decision Making Methods and Applications. Berlin: Springer.
Paschkewitz, J. J. (2014, January). Risk management in Lean Product Development. In Reliability and Maintainability Symposium (RAMS), 2014 Annual (pp. 1-6). IEEE.
Jurado, M. C. (2012). Visual Planning in Lean Product Development. KTH Royal Institute of Technol-ogy.
Kano, Shigeto, and Hirokazu Shimizu. 2001. “A Guide to GD3 Activities and DRBFM Technique to Prevent Trouble.” Vehicle Technology Dept No. 1, Toyota Motor Corporation. Vol. Version 5.
Karlsson, C., & Ahlström, P. (1996). The difficult path to lean product development. Journal of prod-uct innovation management, 13(4), 283-295.
Khan, M., Al-Ashaab, A., Doultsinou, A., Shehab, E., Ewers, P., & Sulowski, R. (2011). Set-based concurrent engineering process within the LeanPPD environment. In Improving Complex Systems Today (pp. 433-440). Springer London.
Bo-Young, K. (2008). Cross-functional cooperation with design teams in new product develop-ment. International Journal of Design, 2(3), 43–54.
Krichbaum, B. D. (2008). Standardized work : The power of consistency standardized work : The power of consistency standardized work : The Principles.
Li, L., & Fan, G. (2014). Fuzzy MADM with triangular numbers for project investment model based on left and right scores. Research Journal of Applied Sciences, Engineering, and Technology, 7(13), 2793–97.
León, H. C. M., & Farris, J. A. (2011). Lean product development research: Current state and future directions. Engineering Management Journal, 23(1), 29-51.
Letens, G., Farris, J. A., & Van Aken, E. M. (2011). A multilevel framework for lean product devel-opment system design. Engineering Management Journal, 23(1), 69-85.
Li, M. (2013). A multi-criteria group decision making model for knowledge management system se-lection based on TOPSIS with multiple distances in fuzzy environment. Kybernetes, 42(8), 1218-1234.
Liker, J.K. (2004). The Toyota Way, 14 Management Principles from the World’s Greatest Manufacturer. New York: McGraw-Hill.
Lind, M. (2009). Lean Product Development and PLM’s Supporting Role. Aras Corporate.
Maksimovic, M., Al-Ashaab, A., Sulowski, R., & Shehab, E. (2012, December). Knowledge visualiza-tion in product development using trade-off curves. In Industrial Engineering and Engineering Management (IEEM), 2012 IEEE International Conference on (pp. 708-711). IEEE.
Marvel, J. H., & Standridge, C. R. (2009). Simulation-enhanced lean design process. Journal of Indus-trial Engineering and Management, 2(1), 90-113.
McManus, H. L. (2005). Product Development Value Stream Mapping (PDVSM) Manual Release 1.0. Massachusetts Institute of Technology, no. September.
Mohammadi, A. (2010). Lean Product Development -Performance Measurement System. Gothenburg: Gothenburg University, 1–64.
Saad, N. M., Al-Ashaab, A., Maksimovic, M., Zhu, L., Shehab, E., Ewers, P., & Kassam, A. (2013). A3 thinking approach to support knowledge-driven design. The International Journal of Advanced Manufacturing Technology, 68(5-8), 1371-1386.
Narayanamurthy, G. (2014). 7A model - A process selection guide for lean implementation. In Proceedings of the Twenty-Fifth Annual Conference Production and Operations Management Society (POM 2014), 9-12 May 2014, Atlanta, USA., 1–13.
Nepal, B. P., Yadav, O. P., & Solanki, R. (2011). Improving the NPD process by applying lean prin-ciples: A case study. Engineering Management Journal, 23(1), 52-68.
Parry, G. C., & Turner, C. E. (2006). Application of lean visual process management tools. Production Planning & Control, 17(1), 77-86.
Petersen, K. J., Handfield, R. B., & Ragatz, G. L. (2005). Supplier integration into new product de-velopment: coordinating product, process and supply chain design. Journal of operations manage-ment, 23(3), 371-388.
Pugh, S. (1996). Creating Innovative Products Using Total Design: The Living Legacy of Stuart Pugh. Reading, MA: Addison-Wesley.
Ragatz, G. L., Handfield, R. B., & Petersen, K. J. (2002). Benefits associated with supplier integra-tion into new product development under conditions of technology uncertainty. Journal of busi-ness research, 55(5), 389-400.
Ren, L., Zhang, Y., Wang, Y., & Sun, Z. (2007). Comparative analysis of a novel M-TOPSIS method and TOPSIS. Applied Mathematics Research eXpress, 2007, abm005.
Rodriguez, K., & Al-Ashaab, A. (2007). Knowledge web-based system to support e-manufacturing of injection moulded products. International journal of manufacturing technology and manage-ment, 10(4), 400-418.
Sethi, R., Smith, D. C., & Park, C. W. (2001). Cross-functional product development teams, creativi-ty, and the innovativeness of new consumer products. Journal of marketing research, 38(1), 73-85.
Shah, R., & Ward, P. T. (2003). Lean manufacturing: context, practice bundles, and perfor-mance. Journal of operations management, 21(2), 129-149.
Sopelana, A., Flores, M., Martinez, L., Flores, K., & Sorli, M. (2012, June). The application of an as-sessment tool for lean product development: an exploratory study in Spanish Companies. In Engineering, Technology and Innovation (ICE), 2012 18th International ICE Conference on (pp. 1-10). IEEE.
Dehghani Soufi, M., Ghobadian, B., Najafi, G., Sabzimaleki, M. R., & Yusaf, T. (2015). TOPSIS multi-criteria decision modeling approach for biolubricant selection for two-stroke petrol en-gines. Energies, 8(12), 13960-13970.
Stenius, P. (2011). Making Lean Work Leaner by Prioritizing Actions and Moving Promptly into Implementation. Reddal-BusinessDeveloperNewsletter.
Wang, L., Ming, X. G., Kong, F. B., Li, D., & Wang, P. P. (2011). Focus on implementation: a framework for lean product development. Journal of Manufacturing Technology Manage-ment, 23(1), 4-24.
Wasim, A., Shehab, E., Abdalla, H., Al-Ashaab, A., Sulowski, R., & Alam, R. (2013). An innovative cost modelling system to support lean product and process development. The International Journal of Advanced Manufacturing Technology, 65(1-4), 165-181.
Yan, B., & Makinde, O. D. (2011). Impact of continuous improvement on new product development within SMEs in the Western Cape, South Africa. African Journal of Business Management, 5(6), 2220.
Yang, C., & Wu, Q. (2008, October). Decision model for product design based on fuzzy TOPSIS method. In Computational Intelligence and Design, 2008. ISCID'08. International Symposium on (Vol. 2, pp. 342-345). IEEE.
Zadeh, L.A. (1965). Fuzzy sets. Information and Control, 8, 338–53.
Zhu, X., Wang, F., Liang, C., Li, J., & Sun, X. (2012). Quality credit evaluation based on TOPSIS: Evidence from air-conditioning market in China. Procedia Computer Science, 9, 1256-1262.
Aikhuele, D. O., & Faiz, M. T. (2016b). An interval fuzzy-valued M-TOPSIS model for design concept selection. The National Conference for Postgraduate Research 2016, Universiti Malaysia Pahang, 374–84.
Aikhuele, D. O., & Turan, F. M. (2016c). A Hybrid Fuzzy Model for Lean Product Development Per-formance Measurement. In IOP Conference Series: Materials Science and Engineering (Vol. 114, No. 1, p. 012048). IOP Publishing.
Aikhuele, D. O., & Turan, F. M. (2016d). Proposal for a Conceptual Model for Evaluating Lean Product Development Performance: A Study of LPD Enablers in Manufacturing Companies. In IOP Conference Series: Materials Science and Engineering (Vol. 114, No. 1, p. 012047). IOP Publishing.
Al-Ashaab, A., Golob, M., Urrutia, U. A., Gourdin, M., Petritsch, C., Summers, M., & El-Nounu, A. (2016). Development and application of lean product development performance measurement tool. International Journal of Computer Integrated Manufacturing, 29(3), 342-354.
Al-Ashaab, A., Shehab, E., Alam, R., Sopelana, A., Sorli, M., Flores, M., ... & James-Moore, M. (2010). The conceptual leanPPD model. In New World Situation: New Directions in Concurrent Engineering (pp. 339-346). Springer London.
Azeem, M., & Gondal, M. B. (2011). Prototype framework: prototypes, prototyping and piloting in terms of quality insurance. Academic Research International 1(2), 301–307.
Azizi, A., & Aikhuele, D. O. (2015, March). An integrated model of Kano and quality function de-ployment for evaluation of lean production tools in assembly environment. In Industrial Engineer-ing and Operations Management (IEOM), 2015 International Conference on (pp. 1-6). IEEE.
Berger, A. (1997). Continuous improvement and kaizen: standardization and organizational de-signs. Integrated manufacturing systems, 8(2), 110-117.
Carulli, M., Bordegoni, M., & Cugini, U. (2013). An approach for capturing the voice of the customer based on virtual prototyping. Journal of Intelligent Manufacturing, 24(5), 887-903.
Chase, J. P. (2000). Measuring value in product development. Massachusetts Institute of Technology.
Chen, S. M., & Tan, J. M. (1994). Handling multicriteria fuzzy decision-making problems based on vague set theory. Fuzzy sets and systems, 67(2), 163-172.
Chou, S. Y., Vincent, F. Y., Dewabharata, A., & Dat, L. Q. (2012, November). A fuzzy TOPSIS ap-proach for medical provider selection and evaluation. In Fuzzy Theory and it's Applications (iFUZZY), 2012 International Conference on (pp. 322-326). IEEE.
Furuhjelm, J., Swan, H., & Tingström, J. (2011, August). Creating value through lean product devel-opment: applying lean principles. In Proceedings of the 18th International Conference on Engineer-ing Design (ICED 11)(8 pp.) Copenhagen: The Design Society.
Gershenson, J. K., & Pavnaskar, S. J. (2003). Eight Basic Lean Product Development Tools. In DS 31: Proceedings of ICED 03, the 14th International Conference on Engineering Design, Stockholm.
Haque, B., & Moore, M. J. (2004). Measures of performance for lean product introduction in the aero-space industry. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engi-neering Manufacture, 218(10), 1387-1398.
Harland, P. E., & Uddin, Z. (2014). Effects of product platform development: fostering lean product development and production. International Journal of Product Development 18, 19(5-6), 259-285.
Hines, P., Francis, M., & Found, P. (2006). Towards lean product lifecycle management: a framework for new product development. Journal of Manufacturing Technology Management, 17(7), 866-887.
Hoppmann, J., Rebentisch, E., Dombrowski, U., & Zahn, T. (2011). A framework for organizing lean product development. Engineering Management Journal, 23(1), 3-15.
Hwang, C. L., & Yoon, K. (1981). Multiple Attribute Decision Making Methods and Applications. Berlin: Springer.
Paschkewitz, J. J. (2014, January). Risk management in Lean Product Development. In Reliability and Maintainability Symposium (RAMS), 2014 Annual (pp. 1-6). IEEE.
Jurado, M. C. (2012). Visual Planning in Lean Product Development. KTH Royal Institute of Technol-ogy.
Kano, Shigeto, and Hirokazu Shimizu. 2001. “A Guide to GD3 Activities and DRBFM Technique to Prevent Trouble.” Vehicle Technology Dept No. 1, Toyota Motor Corporation. Vol. Version 5.
Karlsson, C., & Ahlström, P. (1996). The difficult path to lean product development. Journal of prod-uct innovation management, 13(4), 283-295.
Khan, M., Al-Ashaab, A., Doultsinou, A., Shehab, E., Ewers, P., & Sulowski, R. (2011). Set-based concurrent engineering process within the LeanPPD environment. In Improving Complex Systems Today (pp. 433-440). Springer London.
Bo-Young, K. (2008). Cross-functional cooperation with design teams in new product develop-ment. International Journal of Design, 2(3), 43–54.
Krichbaum, B. D. (2008). Standardized work : The power of consistency standardized work : The power of consistency standardized work : The Principles.
Li, L., & Fan, G. (2014). Fuzzy MADM with triangular numbers for project investment model based on left and right scores. Research Journal of Applied Sciences, Engineering, and Technology, 7(13), 2793–97.
León, H. C. M., & Farris, J. A. (2011). Lean product development research: Current state and future directions. Engineering Management Journal, 23(1), 29-51.
Letens, G., Farris, J. A., & Van Aken, E. M. (2011). A multilevel framework for lean product devel-opment system design. Engineering Management Journal, 23(1), 69-85.
Li, M. (2013). A multi-criteria group decision making model for knowledge management system se-lection based on TOPSIS with multiple distances in fuzzy environment. Kybernetes, 42(8), 1218-1234.
Liker, J.K. (2004). The Toyota Way, 14 Management Principles from the World’s Greatest Manufacturer. New York: McGraw-Hill.
Lind, M. (2009). Lean Product Development and PLM’s Supporting Role. Aras Corporate.
Maksimovic, M., Al-Ashaab, A., Sulowski, R., & Shehab, E. (2012, December). Knowledge visualiza-tion in product development using trade-off curves. In Industrial Engineering and Engineering Management (IEEM), 2012 IEEE International Conference on (pp. 708-711). IEEE.
Marvel, J. H., & Standridge, C. R. (2009). Simulation-enhanced lean design process. Journal of Indus-trial Engineering and Management, 2(1), 90-113.
McManus, H. L. (2005). Product Development Value Stream Mapping (PDVSM) Manual Release 1.0. Massachusetts Institute of Technology, no. September.
Mohammadi, A. (2010). Lean Product Development -Performance Measurement System. Gothenburg: Gothenburg University, 1–64.
Saad, N. M., Al-Ashaab, A., Maksimovic, M., Zhu, L., Shehab, E., Ewers, P., & Kassam, A. (2013). A3 thinking approach to support knowledge-driven design. The International Journal of Advanced Manufacturing Technology, 68(5-8), 1371-1386.
Narayanamurthy, G. (2014). 7A model - A process selection guide for lean implementation. In Proceedings of the Twenty-Fifth Annual Conference Production and Operations Management Society (POM 2014), 9-12 May 2014, Atlanta, USA., 1–13.
Nepal, B. P., Yadav, O. P., & Solanki, R. (2011). Improving the NPD process by applying lean prin-ciples: A case study. Engineering Management Journal, 23(1), 52-68.
Parry, G. C., & Turner, C. E. (2006). Application of lean visual process management tools. Production Planning & Control, 17(1), 77-86.
Petersen, K. J., Handfield, R. B., & Ragatz, G. L. (2005). Supplier integration into new product de-velopment: coordinating product, process and supply chain design. Journal of operations manage-ment, 23(3), 371-388.
Pugh, S. (1996). Creating Innovative Products Using Total Design: The Living Legacy of Stuart Pugh. Reading, MA: Addison-Wesley.
Ragatz, G. L., Handfield, R. B., & Petersen, K. J. (2002). Benefits associated with supplier integra-tion into new product development under conditions of technology uncertainty. Journal of busi-ness research, 55(5), 389-400.
Ren, L., Zhang, Y., Wang, Y., & Sun, Z. (2007). Comparative analysis of a novel M-TOPSIS method and TOPSIS. Applied Mathematics Research eXpress, 2007, abm005.
Rodriguez, K., & Al-Ashaab, A. (2007). Knowledge web-based system to support e-manufacturing of injection moulded products. International journal of manufacturing technology and manage-ment, 10(4), 400-418.
Sethi, R., Smith, D. C., & Park, C. W. (2001). Cross-functional product development teams, creativi-ty, and the innovativeness of new consumer products. Journal of marketing research, 38(1), 73-85.
Shah, R., & Ward, P. T. (2003). Lean manufacturing: context, practice bundles, and perfor-mance. Journal of operations management, 21(2), 129-149.
Sopelana, A., Flores, M., Martinez, L., Flores, K., & Sorli, M. (2012, June). The application of an as-sessment tool for lean product development: an exploratory study in Spanish Companies. In Engineering, Technology and Innovation (ICE), 2012 18th International ICE Conference on (pp. 1-10). IEEE.
Dehghani Soufi, M., Ghobadian, B., Najafi, G., Sabzimaleki, M. R., & Yusaf, T. (2015). TOPSIS multi-criteria decision modeling approach for biolubricant selection for two-stroke petrol en-gines. Energies, 8(12), 13960-13970.
Stenius, P. (2011). Making Lean Work Leaner by Prioritizing Actions and Moving Promptly into Implementation. Reddal-BusinessDeveloperNewsletter.
Wang, L., Ming, X. G., Kong, F. B., Li, D., & Wang, P. P. (2011). Focus on implementation: a framework for lean product development. Journal of Manufacturing Technology Manage-ment, 23(1), 4-24.
Wasim, A., Shehab, E., Abdalla, H., Al-Ashaab, A., Sulowski, R., & Alam, R. (2013). An innovative cost modelling system to support lean product and process development. The International Journal of Advanced Manufacturing Technology, 65(1-4), 165-181.
Yan, B., & Makinde, O. D. (2011). Impact of continuous improvement on new product development within SMEs in the Western Cape, South Africa. African Journal of Business Management, 5(6), 2220.
Yang, C., & Wu, Q. (2008, October). Decision model for product design based on fuzzy TOPSIS method. In Computational Intelligence and Design, 2008. ISCID'08. International Symposium on (Vol. 2, pp. 342-345). IEEE.
Zadeh, L.A. (1965). Fuzzy sets. Information and Control, 8, 338–53.
Zhu, X., Wang, F., Liang, C., Li, J., & Sun, X. (2012). Quality credit evaluation based on TOPSIS: Evidence from air-conditioning market in China. Procedia Computer Science, 9, 1256-1262.