Citation:
Danbing Long, Xin Lei, Chuchong Wang, Changjian Fang, Yongjun Kang. An Automated Compliance Checking Method Based on BIM and Knowledge Graph. Journal of Information Technologyin Civil Engineering and Architecture,
2024, 16(2): 29-33.
doi: 10.16670/j.cnki.cn11-5823/tu.2024.02.05
2024, 16(2): 29-33. doi: 10.16670/j.cnki.cn11-5823/tu.2024.02.05
An Automated Compliance Checking Method Based on BIM and Knowledge Graph
| 1. | School of Civil engineering, Southwest Jiao tong University, Chengdu 610031, China |
| 2. | Sichuan Provincial Architectural Design and Research Institute Co., Ltd., Chengdu 610031, China |
| 3. | China Southwest Architecture, Chengdu 610031, China |
The present paper applies knowledge graph technology to design compliance checking, and proposes an Automatic Compliance Checking (ACC) system based on standard knowledge graph. Through analyzing Chinese standards and structural design rules (hereinafter collectively referred to as standards), the atomic structure of knowledge graph for the minimum semantic unit is created, and some rules for linking the atomic structures are developed, thus establishing a method for constructing a building standard knowledge graph (BSKG) with the atomic structure as basic-element. By applying data from the graph to the data-driven code generation module, the executable codes for both information retrieval and compliance checking can be automatically generated, thus enabling BIM model's compliance checking to be automatically conducted.
| [1] |
《建筑工程质量管理条例》[M], 2000. |
| [2] |
Eastman. C, Lee. J, Jeong. Y, Automatic rule-based checking of building designs, Automation in Construction. 18 (2009) 1011–1033. |
| [3] |
Guo D, Onstein E, La Rosa A D. A Semantic Approach for Automated Rule Compliance Checking in Construction Industry[J]. IEEE Access, 2021, 9: 129648-129660.doi: 10.1109/ACCESS.2021.3108226 |
| [4] |
CoreNet. Essential Suite (ESS). Corenet e-submission system[EB/OL]. [2023-04-20]. |
| [5] |
Hjelseth E. Foundation for development of computable rules[J]. Managing IT in Construction/Managing Construction for Tomorrow, 2009: 257 |
| [6] |
Zhang J, El-Gohary N M. Automated information transformation for automated regulatory compliance checking in construction[J]. Journal of Computing in Civil Engineering, 2015, 29(4): B4015001.doi: 10.1061/(ASCE)CP.1943-5487.0000427 |
| [7] |
Zhou Y, Lin J, She Z. Automatic Construction of Building Code Graph for Regulation Intelligence[M]//ICCREM 2021. 248-254. Zhang J, El-Gohary N M. Integrating semantic NLP and logic reasoning into a unified system for fully-automated code checking[J]. Automation in construction, 2017, 73: 45-57. |
| [8] |
Solibri. Solibri Model Checker[EB/OL]. [2023-04-20]. |
| [9] |
Hayan Kim, Jin-Kook Lee, Jaeyoung Shin, Jungsik Choi, Visual language approach to representing KBimCode-based Korea building code sentences for automated rule checking, Journal of Computational Design and Engineering, Volume 6, Issue 2, April 2019, Pages 143–148. |
| [10] |
W. Solihin, C. Eastman, A Knowledge Represehtation Approach in BIM rule Re-quirement analysis using the conceptual graph. 21 (2016) 370-401. |
Metrics
- PDF Downloads(44)
- Abstract views(1789)
- HTML views(469)
