Impact of BIM Technology on Time-Reducing in Conditions of Slovak Construction Industry
- 17 Downloads
Information and communication technology presents an effective tool for project management. Currently, the construction industry is increasing demands on technology. BIM is an intelligent 3D model-based process that provides architend construction experts insight and tools to more effectively plan, design, bcture, engineering auild and manage buildings and infrastructure. One of supposed advances is time-reducing in a construction project. The research was oriented on BIM technology and its impact on time-reducing. Time-reducing is one of the desired and anticipated benefits of using progressive technology. Research discussed the issue of BIM technology impact on time-reducing. The main objective of the research was to analyse and quantify the impact of BIM technology on time-reducing in construction projects. Our research also addressed the issue of comparing the use of BIM technology from a global perspective and there are also several studies to reduce costs through this technology. The research sample includes 111 of interviewed respondents in the Slovak construction industry and 24 respondents participated in the questionnaire survey. There were contractors and developers.
KeywordsBIM Technology Time-reducing Management Construction industry
The paper presents a partial research results of project VEGA 1/0828/17 ‘Research and application of knowledge-based systems for modeling cost and economic parameters in Building Information Modeling’.
This work was supported by the Slovak Research and Development Agency under contract no. APVV-17-0549.
- 1.Shu-Hui, J., Shih-Ping, H., & Hui-Ping, T. (2013). Applications of building information modelling (BIM) in knowledge sharing and management in construction. International Journal of Civil Engineering and Environmental Engineering, 7(11), 828–832.Google Scholar
- 2.Travaglini, A., Radujković, M., & Mancini, M. (2014). Building information modelling (BIM) and project management: A stakeholder’s perspective. Organization, Technology and Management in Construction Journal, 6(2), 1058–1065.Google Scholar
- 4.Mesároš, P., et al. (2018). Applications of knowledge technology in construction industry. In ICETA 2018: Proceedings – 16th IEEE International Conference on Emerging eLearning Technologies and Applications, pp. 367–372. New Jersey (USA): Institute of Electrical and Electronics Engineers. ISBN 978–1–5386-7912-8.Google Scholar
- 6.Radziszewska-Zielina, E., & Rumin, R. (2016). Analysis of the profitability of investment in renewable energy sources on the example of a semi-detached house. In International Conference on the Sustainable Energy and Environment Development, SEED 2016, E3S Web Of Conferences, 10, 00079.Google Scholar
- 10.Words & Images. (2009). Building information modeling: Understanding and operating in a new paradigm. Falls Church: The Foundation of Wall and Ceiling Industry.Google Scholar
- 11.National BIM Standard-United States. National Building Information Model Standard Project Committee. Retrieved on 8/6/13. http://www.nationalbimstandard.org/about.php. Last accessed 2019/05/13.
- 12.Fadeyi, M.O. The role of building information modeling (BIM) in delivering the sustainable building value. International Journal of Sustainable Built Environment, 6(2), 711–722. https://www.sciencedirect.com/science/article/pii/S2212609016302047. Last accessed 2019/05/12.CrossRefGoogle Scholar
- 13.Richardson, D. (2014). Productivity in the construction industry. Canberra: Australia Institute.Google Scholar
- 14.Ying, Z. (2005). Significant factors affecting construction productivity (Doctoral dissertation), National University of Singapore.Google Scholar
- 15.Furneaux, C., & Kivvits, R. BIM — Implications For Government, CRC for Construction Innovation, Brisbane. http://eprints.qut.edu.au/26997/. Last accessed 2019/05/12.
- 16.Yan, H., & Damian, P. Benefits and barriers of Building Information Modelling. http://homepages.lboro.ac.uk/cvpd2/PDFs/294_Benefits%20and%20Barriers%20of%20 Building%20Information%20Modelling.pdf. Last accessed 2019/05/12.
- 17.Knapčíková, L., et al. (2018). Advanced materials based on the recycled Polyvinyl Butyral (PVB). In MMS Conference 2017, Ghent: EAI (pp. 1–9).Google Scholar
- 18.Knapčíková, L., et al. (2016). Material recycling of some automobile plastics waste. Przemysl Chemiczny, 95(9), 1716–1720.Google Scholar