Designing Port Services Via Fuzzy Quality Function Deployment

Erdogan Yazar, Evrim; Dogan, Hatice; Uludag, Ahmet Serhat

doi:10.21121/eab.835166

Designing Port Services Via Fuzzy Quality Function Deployment

Hatice DOĞAN, (Giresun Üniversitesi, Sosyal Bilimler Meslek Yüksekokulu, Giresun, Türkiye)

Ahmet Serhat ULUDAĞ, (Ondokuz Mayıs Üniversitesi, İktisadi ve İdari Bilimler Fakültesi, Uluslararası Ticaret ve Lojistik Şube, Samsun, Türkiye)

Evrim ERDOĞAN YAZAR (Ondokuz Mayıs Üniversitesi, İktisadi ve İdari Bilimler Fakültesi, İşletme Bölümü, Samsun, Türkiye)

Ege Akademik Bakış

1 1

Yıl: 2020 Cilt: 20 Sayı: 4 Sayfa Aralığı: 283 - 300 Metin Dili: İngilizce DOI: 10.21121/eab.835166 İndeks Tarihi: 29-07-2022

Designing Port Services Via Fuzzy Quality Function Deployment

Öz:

The objective of this study is to develop a proposal for developing port services that can improve the service quality by accurately satisfying the customer requirements. In this study, a four-stage process was identified. In the first stage, data envelopment analysis (DEA) was used for measuring the efficiency of the container terminals. In the second stage, the requirements of the port customers were identified, and confirmatory factor analysis was applied for satisfying these requirements. Further, in the third stage, the consistency of the binary comparison matrices which consist of customer requirements was evaluated using the analytic hierarchy process (AHP). In the final stage, the fuzzy analytic hierarchy process (FAHP) and fuzzy quality function deployment (FQFD) were jointly used for designing the port services. According to results, the resources requirement is considered to the most important criterion among the main criteria to improve the service quality of the port. Further, FQFD was used for designing of P1 port’s service. FQFD was concluded that the quality of the equipment, facilities, and technological infrastructure have to be improved for increasing the service quality of P1 port.

Anahtar Kelime: Port Service Design Data Envelopment Analysis Fuzzy Quality Function Deployment Fuzzy Analytic Hierarchy Process Confirmatory Factor Analysis

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

Akbaba, A., 2005. The quality function deployment (QFD) approach in customer focused service production: An application study for hospitality industry”, Anatolia, Journal of tourism Research, 16,1, 59-81.
Baird, A.J., 1995. Privatisation of trust ports in The United Kingdom: Review and analysis of the first sales. Transport Policy. 2, 2, 135-143.
Bakirci, F., 2006. Üretimde etkinlik ve verimlilik ölçümü, veri zarflama analizi teori ve uygulama. İstanbul: Atlas Yayınları, 1. Baskı.
Becker, A., Inoue, S., Fischer, M., Schwegler, B., 2011. Considering climate change: A survey of global seaport administrators. CIFE Working Paper WP128, Stanford University, 1-69.
Bevilacqua, M., Ciarapica, F.E., Marchhetti, B., 2012. Development and test of a new fuzzy- QFD approach for characterizing customers rating of extra virgin olive oil. Food Quality and Preference. 24, 75- 84.
Bottani, E., Rizzi, A., 2006. Strategic management of logistics service: A fuzzy QFD approach. International Journal of Production Economics. 103, 585-599.
Branch, A. E., 1986. Elements of port operation and management. London, Chapman and Hall.
Buyukozkan, G., Feyzioglu, O., Ruan, D., 2007. Fuzzy group decision-making to multiple preference formats in Quality Function Deployment. Computers in Industry. 58, 392- 402.
Byrne, B.M., 2010. Structural equation modeling with AMOS, basic concepts, applications and programming. Taylor Francis Group, 2. Edition, LLC.
Chamzini, A.Y., Yakhchali, S.H., 2012. Tunnel boring machine (TBM) selection using fuzzy multicriteria decision making methods. Tunnelling and Underground Space Technology, 30, 194-204.
Chan, F.T.S., Kumar, N., 2007. Global supplier development considering risk factors using fuzzy extended ahp-based approach. Omega The International Journal of Management Science. 35, 417-431.
Chang, D.Y., 1996. Applications of the extent analysis method on fuzzy AHP. European Journal of Operational Research. 95, 649-655.
Charnes, A., Cooper, W.W., Lewin, A.Y., Seiford, L.M., 1994. Data envelopment analysis: Theory, methodology and application. Springer Science +Business Media, LLC.
Cooper, W.W., Li, S., Seiford, L.M., Tone, K., Thrall, R.M., Zhu, J., 2001. Sensitivity and stability analysis in DEA: Some recent developments. Journal of Productivity Analysis. 15, 217-246.
Cooper, W.W., Seiford, L., M., Tone, K., 2007. Data envelopment analysis, A comprehensive text with models, applications, references and DEA-solver software. Springer Science, Business Media, LLC. Second Edition.
Cooper, W.W., Seiford, L.M., Zhu, J., 2004. Handbook on data envelopment analysis, Kluwer Academic Publishers.
Costa, A.I.A., Dekker, M., Jongen, W.M.F., 2001. Quality function deployment in the food industry: A review. Trend in Food Science & Technology. 11, 306-314.
Day, R.G., 1998. Quality function deployment: Integration of a company with its customers. ASQC Quality Press Milwaukee, Wisconsin.
Deng, H., 1999. Multicriteria analysis with fuzzy pairwise comparison. International Journal of Approximate Reasoning. 21, 215-231.
Ding, J. F., 2009. Applying fuzzy quality function deployment (QFD) to identify solutions of service delivery system for port of Kaohsiung, Qual Quant, 43, 553- 570.
Duru, O., Huang, S. T., Bulut, E., 2013. Multi-layer quality function deployment (QFD) approach for improving the compromised quality satisfaction under the agency problem: A 3D QFD design for the asset selection problem in the shipping industry, Qual Quant, 47, 2259–2280.
Dyson, R.G., Allen, R., Camanho, A.S., Podinovski, V.V., Sarrico, C.S., Shale, E.A., 2001. Pitfalls and protocols in DEA. European Journal of Operational
Ertugrul, I., Karakasoglu, N., 2008. Comparison of fuzzy AHP and fuzzy TOPSIS methods for facility location selection. Int. J. Adv. Manuf Technol. 39, 783-795.
Esmer, S., Cetin, C.K., 2016. Liman işletme yönetimi, in: Güldem Cerit, Ali Deveci ve Soner Esmer (eds.), Denizcilik İşletmeleri Yönetimi. Beta Basım A.Ş., İstanbul: 2.Basım, 377-416.
Ficalora, J.P., Cohen, L., 2010. Quality function deployment and sıx sıgma: A QFD Handbook, Pearson Education. Inc, Second Edition, Boston.
Golany, B., Roll, Y., 1989. An application procedure for DEA. Omega. 17, 3, 237-250.
Han, S.B., Chen, S.K., Ebrahimpour, M., Sodhi, M., 2001. A conceptual QFD planning model. International Journal of Quality & Reliability Management. 18, 8, 796-812.
Hsu, W. K. K., 2013. Improving the service operations of container terminals, The International Journal of Logistics Management, 24, 1, 101-116.
Huang, C.C., Chu, P.Y., Chiang, Y.H., 2008. A fuzzy AHP application in government-sponsored R&D project selection. Omega. 36, 6, 1038-1052.
Huang, S. T., Bulut, E., Duru, O., 2015. Service quality assessment in liner shipping industry: an empirical study on Asian shipping case, Int. J. Shipping and Transport Logistics, 7, 2, 221-242.
Huang, S. T., Bulut, E., Duru, O., 2019. Service quality evaluation of international freight forwarders: an empirical research in East Asia, Journal of Shipping and Trade, 4, 14,1-16.
Jeong, M., Oh, H., 1998. Quality function deployment: An extended framework for service quality and customer satisfaction in the hospitality industry, hospitality industry. Hospitality Management. 17, 375-390.
Kahraman, C., Cebeci, U., Ruan, D., 2004. Multi-attribute comparison of catering service companies using fuzzy AHP: The case of Turkey. Int. J. Production Economics. 87, 171-184.
Khoo, L., P., Ho, N.C., 1996. Framework of a fuzzy quality function deployment system. Int. J. Prod. Res. 34, 2, 299-311.
Liu, H.T., 2009. The extension of fuzzy QFD: From product planning to part deployment. Expert Systems With Applications. 36, 11131-11144.
Mangan, J., Lalwani, C., Fynes, B., 2008. Port- Centric Logistics. The International Jounal of Logistics Management. 19, 1, 29- 41.
Nakip, M., 2013. Pazarlamada araştırma teknikleri. Ankara: Seçkin Yayıncılık, 3. Baskı.
Ramanathan, R., 2003. An ıntroduction to data envelopment analysis: A tool for performance measurement, New Delhi: Sage Publications.
Rao, R.V., 2008. Evaluating flexible manufacturing systems using a combined multiple attribute decision making method. International Journal of Production Research. 46, 1, 1975-1989.
Razik, M. A., Tahar, R. M., Hasrulnizzam, W., Mahmood, W., Rozar, N., M., 2015. Integrated Quality Function Deployment (QFD) Model for Dry Bulk Terminal Improvements (DBTI) in Malaysian Ports, Journal of Economics, Business and Management, 3, 4, 413- 416.
Schermelleh-Engel, K., Moosbrugger, H., Müller, H., 2003. Evaluating the fit of structural equation models: Tests of significance and descriptive goodness-of-fit measures. Methods of Psychological Research. 8, 2, 23-74.
Tahar, R.M., Hussain, K., 2000. Simulation and analysis fort he Kelang container terminal operations. Logistics Information Management. 13, 1, 14-20.
Thai, V.V., 2008. Service quality in maritime transport: Conceptual model and empirical evidence. Asia Pacific Journal of Marketing and Logistics. 20, 4, 493-518.
TURKLIM, Türkiye Liman İşletmecileri Derneği 2010. Türk Limancılık Sektörü Raporu. 1-182.
UNCTAD, United Nations Conference on Trade and Development 1992, Review of Maritime Transport, available at: http://unctad.org/en/PublicationsLibrary/ rmt1992_en.pdf (accessed 9 May 2016).
Weber, C.A., 1996. A data envelopment analysis approach to measuring vendor performance. Supply Chain Management. 1, 1, 28-39.
World Bank 2007. Port reform toolkit, module 3, alternative port management structures and ownership models. available at: https://ppiaf.org/sites/ppiaf. org/files/documents/toolkits/Portoolkit/Toolkit/ pdf/modules/03_TOOLKIT_Module3.pdf (accessed 17 February 2017).

APA	Dogan H, Uludag A, Erdogan Yazar E (2020). Designing Port Services Via Fuzzy Quality Function Deployment. , 283 - 300. 10.21121/eab.835166
Chicago	Dogan Hatice,Uludag Ahmet Serhat,Erdogan Yazar Evrim Designing Port Services Via Fuzzy Quality Function Deployment. (2020): 283 - 300. 10.21121/eab.835166
MLA	Dogan Hatice,Uludag Ahmet Serhat,Erdogan Yazar Evrim Designing Port Services Via Fuzzy Quality Function Deployment. , 2020, ss.283 - 300. 10.21121/eab.835166
AMA	Dogan H,Uludag A,Erdogan Yazar E Designing Port Services Via Fuzzy Quality Function Deployment. . 2020; 283 - 300. 10.21121/eab.835166
Vancouver	Dogan H,Uludag A,Erdogan Yazar E Designing Port Services Via Fuzzy Quality Function Deployment. . 2020; 283 - 300. 10.21121/eab.835166
IEEE	Dogan H,Uludag A,Erdogan Yazar E "Designing Port Services Via Fuzzy Quality Function Deployment." , ss.283 - 300, 2020. 10.21121/eab.835166
ISNAD	Dogan, Hatice vd. "Designing Port Services Via Fuzzy Quality Function Deployment". (2020), 283-300. https://doi.org/10.21121/eab.835166

APA	Dogan H, Uludag A, Erdogan Yazar E (2020). Designing Port Services Via Fuzzy Quality Function Deployment. Ege Akademik Bakış, 20(4), 283 - 300. 10.21121/eab.835166
Chicago	Dogan Hatice,Uludag Ahmet Serhat,Erdogan Yazar Evrim Designing Port Services Via Fuzzy Quality Function Deployment. Ege Akademik Bakış 20, no.4 (2020): 283 - 300. 10.21121/eab.835166
MLA	Dogan Hatice,Uludag Ahmet Serhat,Erdogan Yazar Evrim Designing Port Services Via Fuzzy Quality Function Deployment. Ege Akademik Bakış, vol.20, no.4, 2020, ss.283 - 300. 10.21121/eab.835166
AMA	Dogan H,Uludag A,Erdogan Yazar E Designing Port Services Via Fuzzy Quality Function Deployment. Ege Akademik Bakış. 2020; 20(4): 283 - 300. 10.21121/eab.835166
Vancouver	Dogan H,Uludag A,Erdogan Yazar E Designing Port Services Via Fuzzy Quality Function Deployment. Ege Akademik Bakış. 2020; 20(4): 283 - 300. 10.21121/eab.835166
IEEE	Dogan H,Uludag A,Erdogan Yazar E "Designing Port Services Via Fuzzy Quality Function Deployment." Ege Akademik Bakış, 20, ss.283 - 300, 2020. 10.21121/eab.835166
ISNAD	Dogan, Hatice vd. "Designing Port Services Via Fuzzy Quality Function Deployment". Ege Akademik Bakış 20/4 (2020), 283-300. https://doi.org/10.21121/eab.835166