Integrating Building Information Modelling, Lean Construction, And Quality Control: A Study Focused On Chinese Construction Engineering

Authors

  • Du Hongxia Author
  • Aiman Al-Odaini Author

DOI:

https://doi.org/10.48047/qehg9w78

Keywords:

Chinese construction engineering; building information modelling (bim); innovation in engineering; construction industry; project management.

Abstract

The present study examines the implementation of building information modelling (bim) in chinese building engineering, explaining how technological innovation has transformed project execution and addressed issues facing the industry. The research emphasises bim as an internet-connected technology that is gaining significance in the construction industry because to its enhancement of presentation, collaboration, and effectiveness in operation. The study examines how bim enhances the dependability, efficiency, and environmental sustainability of construction projects in china. The results show that bim is a groundbreaking technology that works well to reduce design errors, raise estimate costs, and encourage collaboration between teams from different fields. It makes it easier for everyone to work together, cuts down on project delays, and makes the decision-making process for the building project better. The report also stresses how important it is for huge projects, like creating high-rise buildings and expanding urban recreational opportunities. In these projects, sophisticated design and tight deadlines mean that precision and good management are both important. Excessive costs associated with implementation, a lack of trained specialists, and the lack of completely standardised governing structures are some of the obstacles to broad acceptance that the research reveals, regardless of these benefits. Small organisations may not be equipped to capitalise on every advantage of incorporation of bim due to these constraints. The study found that the use of bim changes the appearance of building technology in china while rendering it more efficient, innovative, and environmentally friendly. To make the most of bim in the long-term, the industry needs consistent learning for workers, new policies, and defined regulations

Downloads

Download data is not yet available.

References

References

Ali, k., alhajlah, h., & kassem, m. (2022). Collaboration and risk in building information modelling (bim): a systematic literature review. Buildings, 571.

Carrasco, c., lombillo, i., sánchez-espeso, j., & balbás, f. (2022). Quantitative and qualitative analysis on the integration of geographic information systems and building information modeling for the generation and management of 3d models. Buildings, 1672.

Chang, r., zhang, n., & gu, q. (2023). A review on mechanical and structural performances of precast concrete buildings. Buildings, 1575.

Chen, y., wang, x., liu, z., cui, j., osmani, m., & demian, p. (2023). Exploring building information modeling (bim) and internet of things (iot) integration for sustainable building. Buildings, 288.

Li, c. (2023). Economic development of communist china: an appraisal of the first five years of industrialization. Univ of california press.

Li, j., afsari, k., li, n., peng, j., wu, z., & cui, h. (2020). A review for presenting building information modeling education and research in china. Journal of cleaner production, 120885.

Li, y., li, y., & ding, z. (2024). Building information modeling applications in civil infrastructure: a bibliometric analysis from 2020 to 2024. Buildings, 3431.

Li, z., zhou, x., ma, h., & hou, d. (2022). Advanced concrete technology. John wiley & sons.

Lu, y., gong, p., tang, y., sun, s., & li, q. (2021). Bim-integrated construction safety risk assessment at the design stage of building projects. Automation in construction, 103553.

Olanrewaju, o., kineber, a., chileshe, n., & edwards, d. (2022). Modelling the relationship between building information modelling (bim) implementation barriers, usage and awareness on building project lifecycle. Building and environment, 108556.

Othman, a., & alamoudy, f. (2021). Optimising building performance through integrating risk management and building information modelling during the design process. Journal of engineering, design and technology, 1233-1267.

Panteli, c., kylili, a., & fokaides, p. (2020). Building information modelling applications in smart buildings: from design to commissioning and beyond a critical review. Journal of cleaner production, 121766.

Teng, y., xu, j., pan, w., & zhang, y. (2022). A systematic review of the integration of building information modeling into life cycle assessment. Building and environment, 109260.

Xia, w., zheng, y., huang, l., & liu, z. (2023). Integration of building information modeling (bim) and big data in china: recent application and future perspective. Buildings, 2435.

Downloads

Published

2023-04-10

How to Cite

Integrating Building Information Modelling, Lean Construction, And Quality Control: A Study Focused On Chinese Construction Engineering (D. Hongxia & A. Al-Odaini , Trans.). (2023). Cuestiones De Fisioterapia, 52(3), 674-682. https://doi.org/10.48047/qehg9w78