Building Information Modeling in Building Management using 3D Techniques

Authors

  • Zeeshan Zaki M. Tech Scholar, Department of Civil Engineering, RIMT University, Mandi Gobindgarh, Punjab, India Author
  • Er Ashish Kumar Assistant Professor, Department of Civil Engineering, RIMT University, Mandi Gobindgarh, Punjab, India Author

DOI:

https://doi.org/10.55524/ijirem.2023.10.2.9

Keywords:

BIM, 3D TechniqueS, CAD, CFD

Abstract

Building Information Modeling (BIM)  has revolutionized the way the building industry operates.  BIM is an innovative approach to building management  that uses 3D modeling techniques to create digital  representations of buildings and their components. This  technology has become an indispensable tool for  architects, engineers, contractors, and building managers  to streamline the design, construction, and maintenance of  buildings. In this paper discusses the use of BIM in building  management and the role of 3D modeling techniques in  enhancing the accuracy and efficiency of building  operations. BIM provides a comprehensive view of the  building, including its systems and components, which  helps in identifying potential issues and mitigating risks.  The 3D modeling techniques provide a realistic  representation of the building, which makes it easier for  building managers to understand and communicate with  stakeholders. This paper highlights the benefits of using BIM in building  management, including improved collaboration, enhanced  communication, and reduced costs. BIM enables building  managers to track and manage building data, including  maintenance schedules, energy consumption, and  occupancy levels. This data can be used to optimize  building performance, reduce energy costs, and improve  occupant comfort. Finally, the paper identifies some of the challenges  associated with the adoption of BIM in building  management, including the need for specialized skills, the  high cost of software and hardware, and the resistance to  change within the industry. The paper concludes by  emphasizing the need for continued investment in BIM and  3D modeling techniques to support sustainable and  efficient building management practices. 

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References

CRC Construction Innovation. (2007). Adopting BIM for facilities management: Solutions for managing the Sydney Opera House, Cooperative Research Center for Construction Innovation, Brisbane, Australia

Road Map for Digital Design and Construction, Federal Ministry of Transport and Digital Infrastructure (publ.), 2015 3. Stober, D., Žarnić, R., Penava, D., Podmanicki, M. T. and Đurašević, R. V, ―Application of HBIM as a Research Tool

for Historical Building Assessment,‖ Journal of Civil Engineering, vol. 4, no.7, pp. 1565-1574, 2018.

Jianhua, L., Genchuan, L., Daiquan, L., Wenlei, L. and Bowen, F, ―Study of Collaborative Management for Transportation Construction Project Based on BIM Technology,‖ Conference Series: Materials Science and Engineering (SAMSE 2017), Shanghai, China, Chapter 4, vol. 322, 052060, Dec. 2017.

Mirzaei, A., Nasirzadeh, F., Jalal, M. P. and Zamani, Y, ―4DBIM Dynamic Time–Space Conflict Detection and Quantification System for Building Construction Projects,‖ Journal of Construction Engineering and Management, vol. 144, no.7, pp.70-81, 2018

Koseoglu, O. and Gunes, E. T. N, ―Mobile BIM implementation and lean interaction on construction site: A case study of a complex airport project,‖ Emerald insight, vol. 25, no. 10, pp. 1298-1321, 2018.

Cheung, W. F., Lin, T. H. and Lin, Y. C, ―A Real-Time Construction Safety Monitoring System for Hazardous Gas Integrating Wireless Sensor Network and Building Information Modeling Technologies,‖ Sensors, vol. 18, no.2, pp 436, 2018.

Li, X. and Chen, W, ―Research on Design and Construction Optimization of Bionic Dendritic Steel Structure Based on BIM,‖ First International Conference on Advanced Algorithms and Control Engineering, Pingtung, Taiwan. Journal of Physics: Conference Series, volume 1087: 052006, August. 2018

Iyakoregha, M., Mahamadu, A. M., Manu, P., Aigbavboa, C. and Ajayi, S, ―Competencies needed by construction project managers for BIM-enabled projects,‖ UNSPECIFIED, pp. 70- 81, 2018.

Jones, S. A., Laquidara-Carr, D., Lorenz, A., Buckley, B., & Barnett, S. (2017). The Business Value of BIM for Infrastructure 2017. Bedford, MA, USA: Dodge Data & Analytics. [Online]. Retrieved from https://www2.deloitte.com/content/dam/Deloitte/us/

Documents/finance/us-fas-bim-infrastructure.pdf 11. Sanchez, A., Kraatz, J. A., Hampson, K. D., & Loganathan, S. (2014). BIM for Sustainable Whole-of-Life Transport Infrastructure Asset Management. In Sustainability in Public Works Conference, 27–29 July 2014.

Yilmaz, G., Akcamete, A., & Demirors, O. (2019). A Reference Model for BIM Capability Assessments. Automation in Construction, 101, 245–263. https//doi.org/10.1016/j.autcon.2018.10.022

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Published

2023-04-30

Issue

Vol. 10 No. 2 (2023): International Journal of Innovative Research in Engineering & Management (Apr) 2023

Section

Articles

How to Cite

Building Information Modeling in Building Management using 3D Techniques . (2023). International Journal of Innovative Research in Engineering & Management, 10(2), 45–52. https://doi.org/10.55524/ijirem.2023.10.2.9
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