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2017 | 24 | Special Issue S3 |
Tytuł artykułu

Towards the building information modeling-based capital project lifecycle management in the luxury yacht industry

Autorzy
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
It will be a new approach that BIM’s capital project lifecycle management (CPLM) applied to the yacht industry. This paper explored the feasibility of applying the principles and rationales of BIM for capital project lifecycle management in luxury yacht design, engineering, fabrication, construction and operation. The paper examined the premises and backbone technology of BIM. It then evaluated leading naval engineering and shipbuilding software applications and their development trends from the functional lens of BIM. To systematically investigate a BIM-based approach for capital project lifecycle management (CPLM) in the luxury yacht industry, the paper proposed and outlined an implementation framework. A case study and a student competition use case were discussed to delineate the core constituents and processes of the proposed framework. The case of BIM was reviewed. Through the domestic custom luxury yacht design and prototyping student competition, the application of this framework in educational research is demonstrated and the initial quantitative assessment of the framework is carried out. Conclusions: a BIM-based CPLM implementation framework can help the luxury yacht industry capitalize on the global transformation to an information-centric and data-driven new business paradigm in shipbuilding with integrated design, manufacturing and production
Słowa kluczowe
EN
Wydawca
-
Rocznik
Tom
24
Opis fizyczny
p.41-48,fig.,ref.
Twórcy
autor
  • Department of Naval Architecture and Ocean Engineering, South China University of Technology, China
autor
  • Department of Naval Architecture and Ocean Engineering, South China University of Technology, China
autor
  • Department of Construction Management, California State University at Fresno, Fresno, CA, USA
Bibliografia
  • 1. NIBS. 2007. Unite States National Building Information Modeling Standard, Version 1 – Part 1: Overview, Principles, and Methodologies Washington, DC.
  • 2. J. Yang, X. Zhang, 2009. Building Information Integration Model and Supporting Technology Standard. Construction Technology, 38(10), 109-112.
  • 3. W. Wu, R. R. A. Issa, 2010. Feasibility of integrating building information modeling and LEED certification process. In: International Conference on Computing in Civil and Building Engineering. Nottingham. pp. 161.
  • 4. McGraw-Hill Construction, 2009. The Business Value of BIM: Getting Building Information Modeling to the Bottom Line. M.-H. Construction, Bedford, MA.
  • 5. McGraw-Hill Construction. 2012. The Business Value of BIM in North America: Multi-Year Trend Analysis and User Ratings (2007–2012). M.-H. Construction, Bedford, MA.
  • 6. C. Eastman, P. Teicholz , R. Sacks, K. Liston, 2011. BIM Handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors (2nd ed.). NJ: John Wiley and Sons, Hoboken.
  • 7. AIA, 2014. AIA TAP BIM Awards - 2014 Professionas’ Choice BIM Award. http://bimforum.org/wp-content/ uploads/2014/04/9ab-2014-Professionals-Choice-BIMAward-MASTER-FINAL-PPT-04172014. pdf.
  • 8. W. Wu, R. R. A. Issa, 2012. Leveraging Cloud-BIM for LEED Automation. Journal of Information Technology in Construction, 17, 367-384.
  • 9. B. Becerik-Gerber, K. Ku, F. Jazizadeh, 2012. BIM-Enabled Virtual and Collaborative Construction Engineering and Management. Journal of Professional Issues in Engineering Education and Practice, 138(3), pp. 234-245.
  • 10. W. Zhong, T. Jiang, 2014. Collaborative Construction based on BIM Standard. Journal of Information Technology in Civil Engineering and Architecture, 6(5), pp. 95-101.
  • 11. L. Ran, 2015. Transferring best practices enabled by Building information modeling (BIM) in Architecture, Engineering and Construction (AEC) to shipbuilding industry: An explorative study. (Industry Engineering and Management Master), Aalto University, Espoo, Finland. https://aaltodoc. aalto.fi/bitstream/handle/123456789/17703/master_Ran_ Luming_2015.pdf?sequence=1.
  • 12. L. Ran, V. Singh, 2016a. Building information modellingenabled best practices in AEC and takeaways for Finnish shipbuilding industry. International Journal of Product Lifecycle Management, 9(3), pp. 238.
  • 13. L. Ran, V. Singh, 2016b. Comparing BIM in Construction with 3D Modeling in Shipbuilding Industries: Is the Grass Greener on the Other Side? In A. Bouras, B. Eynard, S. Foufou, & K.-D. Thoben (Eds.), Product Lifecycle Management in the Era of Internet of Things (pp. 193202): Springer International Publishing.
  • 14. M. Braglia, D. Castellano, M. Frosolini, 2014. Computeraided activity planning (CAAP) in large-scale projects with an application in the yachting industry. Computers in Industry, 65(4), pp. 733-745.
  • 15. K. Hiekata, M. Grau, 2014. Case Studies for Concurrent Engineering Concept in Shipbuilding Industry. In J. Cha, S.-Y. Chou, J. Stjepandić, R. Curran, & W. Xu (Eds.), Moving Integrated Product Development to Service Clouds in the Global Economy (Vol. 1, pp. 102-111): IOS Press Inc.
  • 16. W. Tann, H.-J. Shaw, R. Bronsart, 2005. Integrating the Collaborative Environment in Shipbuilding: An Implementation Strategy. Journal of Ship Production, 21(1), pp. 37-45.
  • 17. CADMATIC, 2016. CADMATIC Marine Design. http:// www.nupas-cadmatic.com/company/overview.html.
  • 18. Intergraph, 2016a. Intergraph Smart 3D. http:// ppm.intergraph.com/products/3d-product-family/ intergraph-smart-3d.
  • 19. Intergraph, 2016b. SmartMarine Enterprise: Improving the Complete Marine Life Cycle. http://viewer.zmags.com/ publication/f19dd27d#/f19dd27d/1.
  • 20. Intergraph, 2009. Capital Project Life Cycle Management (cPLM) vs. Product Life Cycle Management (PLM) for the Shipbuilding, Marine, and Offshore Industries. http://www.intergraph.com/assets/pdf/ IntergraphcPLMvsPLMwhitepaper.pdf.
  • 21. N. Gu, K. London, 2010. Understanding and facilitating BIM adoption in the AEC industry. Automation in Construction, 19(8), pp. 988-999.
  • 22. J. E. Gaul, M. N. Rieger, 2016. BIM Use in New Aircraft Carrier Pier and Bulkhead Rehabilitation Design. http://www.aecbytes.com/feature/2016/BIMPierBulkheadDesign.html.
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
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