Abstract
References
- 1. Miettinen, R., & Paavola, S. Beyond the BIM utopia: Approaches to the development and implementation of building information modeling. Automation in construction, 43, 84-91. (2014). 2. Eastman, C. M., Teicholz, P., Sacks, R. & Liston, K. BIM handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors., Wiley Online Library. (2012). 3. Azhar, S. Building Information Modeling (BIM): Trends, Benefits, Risks, and Challenges for the AEC Industry. Leadership and Management in Engineering, 11, 241-252. (2011). 4. Uysal E., BIM Conference, Istanbul - May 2012 5. T. Liebich, C.-S. Schweer, S. Wernik, Die Auswirkungen von Building Information Modeling (BIM) auf die Leistungsbilder und Vergütungsstruktur für Architekten und Ingenieure sowie auf die Vertragsgestaltung, BBSR, BBR, (2011). 6. Volk R., Stengel J., Schultmann F., Institute for Industrial Production (IIP), Karlsruhe Institute of Technology (KIT), Hertzstraße 16, 76131 Karlsruhe, Germany, (2014). 7. Smith, D. K. & Tardif, M. Building information modeling: a strategic implementation guide for architects, engineers, constructors, and real estate asset managers, John Wiley & Sons Inc. (2009). 8. http://bimcrunch.com/2015/10/april-4th-2016-official-date-set-for-uk-government-mandate/ 9. http://www.atacanute.com/2015/11/building-informtion-modeling-bim.html 10. Organizational BIM Migration Plan, Autodesk, Inc., (2014). 11. Becerik-Gerber, B., & Rice, S. The perceived value of building information modeling in the US building industry. Journal of information technology in Construction, 15(2), 185-201. (2010). 12. Cha, Hee Sung, and Dong Gun Lee. "A case study of time/cost analysis for aged-housing renovation using a pre-made BIM database structure." KSCE Journal of Civil Engineering 19.4 (2015): 841-852. 13. M. Borup, N. Brown, K. Konrad, H. van Lente, The sociology of expectations in science and technology, Tech. Anal. Strat. Manag. 18 (3–4) (2006) 285–298. 14. Howard, R., & Björk, B. C. Building information modelling–Experts’ views on standardisation and industry deployment. Advanced Engineering Informatics, 22(2), 271-280. (2010). 15. Akbarnezhad, A., Ong, K. C. G., & Chandra, L. R. Economic and environmental assessment of deconstruction strategies using building information modeling. Automation in Construction, 37, 131-144. (2014). 16. Penttilä, H., Rajala, M., & Freese, S. Building information modelling of modern historic buildings. (2007). 17. Umit Isikdag, Sisi Zlatanova. Towards Defining a Framework for Automatic Generation of Buildings in CityGML Using Building Information Models. (2009).
Abstract
Building Information Modeling/Management (BIM) technology has attracted the attention of many researchers and academicians as a new concept that has increased rapidly in the construction sector in recent years. The time-dependent changing society has affected the expectations and demands of the construction industry and triggered/resulted in the production of more complex and original projects accordingly. Building Information Modeling/Management (BIM) concept has become a necessity in today's construction industry in terms of providing integration between project stakeholders and providing the possibility of processing and storing the project data in a common point. When international studies are examined, it is seen that the implementation of the Building Information Modeling/Management (BIM) approach is a mandatory job and/or task in the construction industries of the developed countries. It is observed that they follow this new trend in their rapidly developing countries. This study proposes a procurement framework based on the implementation of Building Information/Management (BIM) to achieve 'best results' in construction projects. A case study presented in this study proves the applicability and usefulness of the proposed Building Information Modeling/Management (BIM) approach in a complex construction project funded by the private sector. Contractual arrangements recommended for the project with an effective resource management approach, one of the basic principles of Building Information Modeling/Management (BIM); benefits such as improved productivity, better coordination and minimized errors and repetition of works.
References
- 1. Miettinen, R., & Paavola, S. Beyond the BIM utopia: Approaches to the development and implementation of building information modeling. Automation in construction, 43, 84-91. (2014). 2. Eastman, C. M., Teicholz, P., Sacks, R. & Liston, K. BIM handbook: A Guide to Building Information Modeling for Owners, Managers, Designers, Engineers and Contractors., Wiley Online Library. (2012). 3. Azhar, S. Building Information Modeling (BIM): Trends, Benefits, Risks, and Challenges for the AEC Industry. Leadership and Management in Engineering, 11, 241-252. (2011). 4. Uysal E., BIM Conference, Istanbul - May 2012 5. T. Liebich, C.-S. Schweer, S. Wernik, Die Auswirkungen von Building Information Modeling (BIM) auf die Leistungsbilder und Vergütungsstruktur für Architekten und Ingenieure sowie auf die Vertragsgestaltung, BBSR, BBR, (2011). 6. Volk R., Stengel J., Schultmann F., Institute for Industrial Production (IIP), Karlsruhe Institute of Technology (KIT), Hertzstraße 16, 76131 Karlsruhe, Germany, (2014). 7. Smith, D. K. & Tardif, M. Building information modeling: a strategic implementation guide for architects, engineers, constructors, and real estate asset managers, John Wiley & Sons Inc. (2009). 8. http://bimcrunch.com/2015/10/april-4th-2016-official-date-set-for-uk-government-mandate/ 9. http://www.atacanute.com/2015/11/building-informtion-modeling-bim.html 10. Organizational BIM Migration Plan, Autodesk, Inc., (2014). 11. Becerik-Gerber, B., & Rice, S. The perceived value of building information modeling in the US building industry. Journal of information technology in Construction, 15(2), 185-201. (2010). 12. Cha, Hee Sung, and Dong Gun Lee. "A case study of time/cost analysis for aged-housing renovation using a pre-made BIM database structure." KSCE Journal of Civil Engineering 19.4 (2015): 841-852. 13. M. Borup, N. Brown, K. Konrad, H. van Lente, The sociology of expectations in science and technology, Tech. Anal. Strat. Manag. 18 (3–4) (2006) 285–298. 14. Howard, R., & Björk, B. C. Building information modelling–Experts’ views on standardisation and industry deployment. Advanced Engineering Informatics, 22(2), 271-280. (2010). 15. Akbarnezhad, A., Ong, K. C. G., & Chandra, L. R. Economic and environmental assessment of deconstruction strategies using building information modeling. Automation in Construction, 37, 131-144. (2014). 16. Penttilä, H., Rajala, M., & Freese, S. Building information modelling of modern historic buildings. (2007). 17. Umit Isikdag, Sisi Zlatanova. Towards Defining a Framework for Automatic Generation of Buildings in CityGML Using Building Information Models. (2009).
Details
| Primary Language | English |
|---|---|
| Subjects | Material Production Technologies |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | October 20, 2019 |
| Submission Date | January 20, 2019 |
| Acceptance Date | February 21, 2019 |
| Published in Issue | Year 2019 Volume: 4 Issue: 1 |
Journal of Sustainable Construction Materials and Technologies is open access journal under the CC BY-NC license (Creative Commons Attribution 4.0 International License)
Based on a work at https://dergipark.org.tr/en/pub/jscmt
E-mail: jscmt@yildiz.edu.tr