2024, 16(4): 102-106. doi: 10.16670/j.cnki.cn11-5823/tu.2024.04.19
基于数字建造技术的交通基础设施项目应用研究
中国建筑土木建设有限公司,北京 100073 |
Transportation Infrastructure Projects Based on Digital Construction Technology Applied Research
China Construction Civil Construction Co., Ltd., Beijing 100073, China |
引用本文:
李扬, 郭志光, 敖长江, 赵韦皓. 基于数字建造技术的交通基础设施项目应用研究[J]. 土木建筑工程信息技术,
2024, 16(4): 102-106.
doi: 10.16670/j.cnki.cn11-5823/tu.2024.04.19
Citation:
Yang Li, Zhiguang Guo, Changjiang Ao, Weihao Zhao. Transportation Infrastructure Projects Based on Digital Construction Technology Applied Research[J]. Journal of Information Technologyin Civil Engineering and Architecture,
2024, 16(4): 102-106.
doi: 10.16670/j.cnki.cn11-5823/tu.2024.04.19
摘要:在数字经济背景下,建筑行业正加速进行数字化转型升级。数字建造技术与施工项目的有机融合已成为现代建筑企业转型发展和驱动增长的重要措施。本研究基于交通基础设施项目的实践,深入探讨了数字建造技术,系统论述了BIM、无人机、无人船、三维激光扫描和3D打印等数字建造技术的实施路径。通过在空中、水面和地面不同施工场景中的创新应用,促进了施工管理方式的变革,实现了项目的降本增效目标,提升了企业的风险管理能力,并为交通基础设施行业的智能化和绿色发展提出了相关建议。
Abstract: In the context of the digital economy, the construction industry is accelerating its digital transformation and upgrading. The integration of digital construction technology with construction projects has become a crucial strategy for modern construction enterprises to innovate development modes and enhance growth momentum. This paper presents an in-depth study of digital construction technologies applied to transportation infrastructure projects, including BIM, UAVs, unmanned vessels, 3D laser scanning, and 3D printing. Through innovative applications of these technologies across various construction scenarios—air, water, and land—the paper highlights how these technologies facilitate the transformation of construction management practices, achieve cost reduction, and enhance efficiency. The study also addresses improvements in enterprise risk management and offers recommendations for advancing intelligent and sustainable development in the transportation infrastructure sector.
| [1] |
都业洲. 新格局下大型国有综合建筑企业数字化转型思考及未来对策分析[J]. 公路, 2021, 66(07): 224-228. |
| [2] |
王强. 面向交通基础设施数字化的关键技术探讨[J]. 土木建筑工程信息技术, 2022, 14(04): 133-137.doi: 10.16670/j.cnki.cn11-5823/tu.2022.04.21 |
| [3] |
杜战稳. 《BIM技术下体育建筑全生命周期发展与实践》: BIM技术在体育建筑全生命周期设计中的运用[J]. 建筑学报, 2023(09): 120. |
| [4] |
Nguyen T T N, Tien S D, Thanh V N, et al. Interrelationships among enabling factors for BIM adoption in construction enterprises[J]. Engineering, Construction and Architectural Management, 2024, 31 (2): 891-918.doi: 10.1108/ECAM-05-2022-0465 |
| [5] |
白宇, 刘洁, 王欣南. 基于BIM的施工进度精细化管控方法研究与实践[J]. 公路, 2023, 68(04): 267-274. |
| [6] |
Karatas I, Budak A. Investigating the impact of lean-BIM synergy on labor productivity in the construction execution phase [J]. Journal of Engineering Research, 2023, 11 (4): 322-333.doi: 10.1016/j.jer.2023.10.021 |
| [7] |
林海香, 胡娜娜, 何乔, 等. 基于建筑信息模型数据驱动的铁路设备运维多模态知识图谱构建[J]. 同济大学学报(自然科学版), 2024, 52(02): 166-173. |
| [8] |
Du Q, Li G, Zhou Y, et al. Route Plans for UAV Aerial Surveys according to Different DEMs in Complex Mountainous Surroundings: A Case Study in the Zheduoshan Mountains, China[J]. Remote Sensing, 2022, 14(20): 5215.doi: 10.3390/rs14205215 |
| [9] |
Jianfeng C, Yunfei D, Liqiang H, et al. Slope Topography Monitoring Based on UAV Tilt Photography Technology and Sensor Technology[J]. Journal of Sensors, 2022, 2022 |
| [10] |
曹帅帅. 无人机倾斜摄影测量三维建模的应用试验研究[D]. 昆明: 昆明理工大学, 2018. |
| [11] |
张烈山, 刘璞, 林杰俊, 等. 基于重采样的主动非线性调频连续波声呐测距技术研究[J]. 仪器仪表学报, 2020, 41(10): 74-82. |
| [12] |
王博. 基于三维激光扫描结合BIM技术的建筑平整度检测研究[D]. 青岛: 青岛理工大学, 2022. |
| [13] |
丁烈云, 徐捷, 覃亚伟. 建筑3D打印数字建造技术研究应用综述[J]. 土木工程与管理学报, 2015, 32(03): 1-10. |
| [14] |
夏锴伦, 陈宇宁, 刘超, 等. 混凝土3D打印建造的低碳性研究进展[J]. 建筑结构学报, 2024, 45(03): 15-33. |
| [15] |
卢昱杰, 卢家辉, 王硕, 等. 新型建筑工业化视角下集成数字交付理论体系构建[J]. 清华大学学报(自然科学版), 2024, 64(02): 214-223. |
| [16] |
周杨, 刘梦梦, 王宝雨, 等. 基于BIM技术与风险评估体系的装配式建筑施工安全管理研究[J]. 建筑结构, 2023, 53(S2): 2089-2093. |
计量
- PDF下载量(12)
- 文章访问量(370)
- HTML全文浏览量(249)
