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Production engineering tools for civil engineering practice – the case of QFD

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Warianty tytułu
PL
Narzędzia inżynierii produkcji w budownictwie – przypadek QFD
Języki publikacji
EN
Abstrakty
EN
This article is a part of a series of papers which discuss the usefulness of production engineering tools for general civil engineering. Applications of selected production engineering tools in civil engineering are presented in these papers. The diverse nature of the tools is considered while outlining detailed areas of their application in civil engineering. The features of the tools make them representative of production engineering methodology. Thus, information about the civil engineering applications of the tools also makes it possible to draw practical conclusions about the general usefulness of production engineering methodology in civil engineering. The applications of quality function deployment (QFD) are utilised in this regard in the article.
PL
Artykuł stanowi część cyklu prac poświęconych użyteczności narzędzi inżynierii produkcji w szeroko pojmowanym budownictwie. Uwzględniając zróżnicowany charakter wybranych narzędzi inżynierii produkcji, przedstawiono w cyklu szczegółowe obszary ich zastosowań w budownictwie. Cechy wybranych narzędzi sprawiają, że dobrze ilustrują one metodykę inżynierii produkcji. Dlatego na podstawie informacji dotyczących ich zastosowań w budownictwie, można sformułować praktyczne wnioski dotyczące przydatności metod inżynierii produkcji w budownictwie. W artykule wykorzystano w tym celu narzędzie narzędzie QFD (quality function deployment).
Rocznik
Strony
79--84
Opis fizyczny
Bibliogr. 30 poz., il.
Twórcy
autor
  • Department of Management in Power Engineering, Faculty of Management, AGH University of Science and Technology
autor
  • Department of Management in Power Engineering, Faculty of Management, AGH University of Science and Technology
Bibliografia
  • [1] Christensen L.C., Christiansen T.R., Jin Y., Process models in enterprise engineering – tools for enhancing process description, Computing in Civil Engineering, New York 1996, 634–641.
  • [2] Abdul-Rahman H., Kwan C.L., Woods P.C., Quality function deployment in construction design: Application in low-cost housing design, International Journal of Quality and Reliability Management, 16(6)/1999, 591–605.
  • [3] Srividya A., Metri B.A., Improving reliability of building design using QFD approach, Indian Concrete Journal, 74(5)/2000, 249–253.
  • [4] Chun J., Cho J., QFD model based on a suitability assessment for the reduction of design changes in unsatisfactory quality, Journal of Asian Architecture and Building Engineering, 14(1)/2015, 113–120.
  • [5] Marchi M., Mincolelli G., Design for Duchenne. Guidelines for Dwellings’ Construction or Renovation For Muscular Dystrophy-Affected Families, International Conference on Design for Inclusion, Advances in Intelligent Systems and Computing 500/2016, 87–96.
  • [6] Dikmen I., Talat Birgonul M., Kiziltas S., Strategic use of quality function deployment (QFD) in the construction industry, Building and Environment, 40(2)/2005, 245–255.
  • [7] Ulubeyli S., Kazaz A., Soycopur B., Er B., Quality function deployment in the speculative house-building market: How to satisfy high-income customers, International Journal of Construction Management, 15(2)/2015, 148–156.
  • [8] Menassa C.C., Baer B., A framework to assess the role of stakeholders in sustainable building retrofit decisions, Sustainable Cities and Society, 10/2014, 207–221.
  • [9] Delgado-Hernandez D.J., Bampton K.E., Aspinwall E., Quality function deployment in construction, Construction Management and Economics, 25(6)/2007, 597–609.
  • [10] Guo H., Yu H., Zhang B., QFD-based analysis of quality functional requirements of wooden acoustic panels, Applied Mechanics and Materials, 44–47/2011, 2661–2665.
  • [11] Wood L.C., Wang C., Abdul-Rahman, H., Jamal Abdul-Nasir, N.S., Green hospital design: Integrating quality function deployment and end-user demands, Journal of Cleaner Production, 112/2016, 903–913.
  • [12] Singhaputtangkul N., Low S.P., Teo A.L., Hwang B.-G., Knowledge-based decision support system quality function deployment (KBDSS-QFD) tool for assessment of building envelopes, Automation in Construction, 35/2013, 314–328.
  • [13] Singhaputtangkul N., Zhao X., Pienaar J., Development of a knowledge-based quality function deployment tool for group decision making, Proceedings of the International Conference on Intellectual Capital, Knowledge Management and Organisational Learning, ICICKM, 2015-January, 2015, 250–258.
  • [14] Shao Y., Geyer P., Lang W., Integrating requirement analysis and multi-objective optimisation for office building energy retrofit strategies, Energy and Buildings, 82/2014, 356–368.
  • [15] Chen W.-K., Sun R., Design of intelligent building security systems based on QFD, Advanced Materials Research, 1044–1045/2014, 566–569.
  • [16] Eldin N., Hikle V.: Pilot study of quality function deployment in construction projects, Journal of Construction Engineering and Management, 129(3)/2003, 314–329.
  • [17] Kamara J.M., Anumba C.J., Evbuomwan N.F.O., Client requirements processing in construction: A new approach using QFD, Journal of Architectural Engineering, 5(1)/1999, 8–15.
  • [18] Hadidi L.A., Using quality function deployment to conduct assessment for engineering designs’ contractors, Architectural Engineering and Design Management, 12(3)/2016, 205–230.
  • [19] Jafari A., A contractor pre-qualification model based on the quality function deployment method, Construction Management and Economics, 31(7)/2013, 746–760.
  • [20] Goodfellow M., Wortley J., Azapagi A., A system design framework for the integration of public preferences into the design of large infrastructure projects, Process Safety and Environmental Protection, 92/2014, 687–701.
  • [21] Prasad K., Zavadskas E.K., Chakraborty S., A software prototype for material handling equipment selection for construction sites, Automation in Construction, 57/2015, 120–131.
  • [22] Gillis W.L., Cudney E.A., A methodology for applying quality function deployment to the commissioning process, EMJ – Engineering Management Journal, 27(4)/2015, 177–187.
  • [23] Arditi D., Lee D.-E., Assessing the corporate service quality performance of designbuild contractors using quality function deployment, Construction Management and Economics, 21(2)/2003, 175–185.
  • [24] Arditi D., Lee D.-E., Service quality performance of design/build contractors using quality function deployment, Construction Management and Economics, 22(2)/2004, 123–127.
  • [25] Lee D.-E., Arditi D., Total quality performance of design/build firms using quality function deployment, Journal of Construction Engineering and Management, 132(1)/2006, 49–57.
  • [26] Stojadinović Z., Marinković D., Ivković B., Sustav za mjerenje učinka ljudskih resursa za gradstrokeevinske projekte i tvrtke, Tehnicki Vjesnik, 21/2014, 69–78.
  • [27] Low Sui P., Yeap L., Quality function deployment in design/build projects, Journal of Architectural Engineering, 7(2)/2001,30–39.
  • [28] Low Sui P., Chia Chow H., Responses of architects and engineers to Quality Function Deployment (QFD) in the Singapore construction industry, Architectural Science Review, 44(3)/2001, 251–260.
  • [29] Nielsen Y., Erdogan B., Level of visualization support for project communication in the Turkish construction industry: A quality function deployment approach, Canadian Journal of Civil Engineering, 34(1)/2007, 19–36.
  • [30] Van Loenen B., Mroczkowski M., QFD for the building and construction industry, International Journal of Design Sciences and Technology, 17(2)/2010, 91–105.
Uwagi
EN
Section "Civil Engineering"
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f8198c7a-c078-4aee-a484-ae07870718ea
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