Abstract
The early-stage design and development schemes for the Logistics Centre projects require an inclusive analysis on both qualitative and quantitative data. Many successful organizations listen to the Voice of Customer (VoC) and then incorporate that into the design and implementation of their products and services. Quality Function Deployment (QFD) is the widely used methodology committed to listening to the VoC for easily translating their needs into technical design specifications. In this study, QFD process is reviewed over its major stages and then it is further assessed in terms of its strengths and facilitating aspects applied of any problem for multi-criteria decision-making purposes. The House of Quality (HoQ) is the basic tool of the planning and communication practices of QFD. The HoQ is also a pathfinder’s guide delivering the resources involving the interdisciplinary persons with diverse responsibilities and perfection. Proposing clues about improving benefits and outputs of a QFD process applied in any developing and design project applications is also one of the endeavours of this study.
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References
Lin, Y., Pekkarinen, S.: QFD-based modular logistics service design. J. Bus. Ind. Market. 26(5), 344–356 (2011)
Europlatforms EEIG: The European Logistics Platforms Association. https://www.europlatforms.eu/
Stylidis, K., Rossi, M., Wickman, C., Söderberg, R.: The communication strategies and customer’s requirements definition at the early design stages. Procedia CIRP 50, 553–558 (2016)
Cudney, E.A., Elrod, C.C.: Quality Function Deployment in Continuous Improvement, Missouri University of Science and Technology, July 2011
Gaskin, S.P., Griffin, A., Hauser, J.R., Katz, G.M., Klein, R.L.: The Voice of the Customer. Wiley International Encyclopaedia of Marketing, February 1991
Revelle, J.B.: Quality Essentials: A Reference Guide from A to Z, April 2004
Ulwick, A.W.: Turn Customer Input into Innovation. Harvard Business Review, January 2002
Bolar, A.A., Tesfamariam, S., Sadiq, R.: Framework for prioritizing infrastructure user expectations using Quality Function Deployment (QFD). Int. J. Sustain. Built Environ. 6, 16–29 (2017)
Liu, H.-T., Wang, C.-H.: An advanced QFD model using fuzzy analytic network process. Appl. Math. Modell. 34, 3333–3351 (2010)
Chung, T.W., Lee, Y.J., Jang, H.M.: A comparative analysis of three major transfer airports in Northeast Asia focusing on Incheon international airport using a conjoint analysis. Asian J. Shipping Logistics 33(4), 237–244 (2017)
Lee, Y.-T., Wu, W.-W., Tzeng, G.-H.: An effective decision-making method using a combined QFD and ANP Approach. WSEAS Trans. Bus. Econ. 12(5), 541–551 (2008)
Ramanathan, R., Yunfeng, J.: Incorporating cost and environmental factors in quality function deployment using data envelopment analysis, Omega 37, 711–723 (2009). https://doi.org/10.1016/j.omega.2007.12.003
Ashlyzan Razik, M., Tahar, R.M., Hasrulnizzam, W., Mahmood, W., Mohd Rozar, N.: Integrated quality function deployment (QFD) model for dry bulk terminal improvements (DBTI) in Malaysian ports. J. Econ. Bus. Manage. 3, 4 (2015)
Azadi, M., Farzipoor Saen, R.: A combination of QFD and imprecise DEA with enhanced Russell graph measure. Soc. Econ. Plann. Sci. 47, 281–291 (2013)
Baki, B., Sahin Basfirinci, C., Cilingir, Z., Ilker Murat, A.R.: An application of integrating SERVQUAL and Kano’s model into QFD for logistics services. Asia Pac. J. Mark. Logistics 21(1), 106–126 (2009)
Hauser, J.R., Clausing, D.: The House of Quality. Harvard Business Review, May 1988
Dehe, B., Bamford, D.: Quality function deployment and operational design decisions – a healthcare infrastructure development case study. Prod. Plann. Control. (2017) https://doi.org/10.1080/09537287.2017.1350767
Ceren Altuntaş Vural and Okan Tuna: The prioritization of service dimensions in logistics centres: a fuzzy quality function deployment methodology. Int. J. Logistics Res. Appl. 19(3), 159–180 (2016)
Wang, Y.-H., Lee, C.-H., Trappey, A.J.C.: Service design blueprint approach incorporating TRIZ and service QFD for a meal ordering system: a case study. Comput. Ind. Eng. 107, 388–400 (2017)
Chan, L.-K., Wu, M.-L.: Quality function deployment: a comprehensive review of its concepts and methods. Qual. Eng. 15(1), 23–35 (2002)
Martin Boggess: 10 Trends That Will Dominate Manufacturing in 2019. https://us.hitachi-solutions.com/blog/top-manufacturing-trends/ (2019)
Olewnik, A., Lewis, K.: Limitations of the house of quality to provide quantitative design information. Int. J. Qual. Reliab. Manage. 25(2), 125–146 (2008)
Das, D., Mukherjee, K.: Development of an AHP-QFD framework for designing a tourism product. Int. J. Serv. Oper. Manage. 4(3), 321–344 (2008)
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Korkut, R.G., Çelik, M., Özkaynak, S. (2021). A Critical Review of Quality Function Deployment (QFD) Tool Through Logistics Centre Development Projects. In: Durakbasa, N.M., Gençyılmaz, M.G. (eds) Digital Conversion on the Way to Industry 4.0. ISPR 2020. Lecture Notes in Mechanical Engineering. Springer, Cham. https://doi.org/10.1007/978-3-030-62784-3_37
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