2022, 14(5): 83-90. doi: 10.16670/j.cnki.cn11-5823/tu.2022.05.15
基于轻量化BIM技术的施工技术交底研究
中国建筑土木建设有限公司,北京 100073 |
Research on Construction Technology Clarification Based on Lightweight BIM Technology
China Construction Civil Engineering Co., Ltd., Beijing 100073, China |
引用本文:
张凡, 郭志光, 敖长江, 吕柏行, 赵韦皓. 基于轻量化BIM技术的施工技术交底研究[J]. 土木建筑工程信息技术,
2022, 14(5): 83-90.
doi: 10.16670/j.cnki.cn11-5823/tu.2022.05.15
Citation:
Fan Zhang, Zhiguang Guo, Changjiang Ao, Baihang Lv, Weihao Zhao. Research on Construction Technology Clarification Based on Lightweight BIM Technology[J]. Journal of Information Technologyin Civil Engineering and Architecture,
2022, 14(5): 83-90.
doi: 10.16670/j.cnki.cn11-5823/tu.2022.05.15
摘要:在施工阶段,基于BIM技术的施工技术交底成为项目的重要管理手段,受BIM软硬件配置和人员操作水平等条件限制,交底过程中易出现模型传导失败、交底偏差和信息传递交互慢等问题。本文介绍了十三种基于轻量化BIM技术的施工技术交底方法,从信息完整性、数据轻量化、软件功能性、操作复杂性和实施经济性多个维度对BIM技术辅助技术交底优化程度进行评价和优劣势对比,为交底过程提供方法选择,保证交底人和接底人在低端设备的轻量化浏览,有效提高项目相关方交底和沟通的效率。
Abstract: In the construction stage, the clarification of construction project based on BIM technology is becoming an important method. With the limitation in BIM software and hardware configuration, also with the limitation in BIM personnel skill level, many problems such as model delivery failure and clarification deviation, which end-up with low efficiencies in information delivery and interaction. This paper introduces thirteen construction technology clarification methods based on lightweight BIM Technology, evaluates and compares the optimization degree of BIM Technology auxiliary technology clarification from the dimensions of information integrity, data lightweight, software functionality, operation complexity, and implementation economy. This paper provides method selection for the clarification process, which ensures the project can be accessed through different devices, hence to improve the efficiencies of project clarification and communication.
| [1] |
赵昕, 马智亮, 杨富春, 等. 《中国建筑施工行业信息化发展报告(2017)智慧工地应用与发展》[M]. 中国建材工业出版社, 2017. |
| [2] |
张少朋, 杨斌, 卢孟凡. 基于BIM技术的铁路桥梁专业技术交底研究[J]. 铁路技术创新, 2020(01): 46-50. |
| [3] |
梁华站, 郭思壮, 田忠贵, 等. BIM技术在技术交底工作中的应用[J]. 施工技术, 2018, 47(S4): 978-981. |
| [4] |
王栋, 张拓, 张建平. BIM技术在电气施工进度控制及技术交底中的应用[J]. 中国设备工程, 2020(15): 24-25.doi: 10.3969/j.issn.1671-0711.2020.15.015 |
| [5] |
马金忠, 田彦山. 基于云计算的BIM模型轻量化及应用研究综述[J]. 宁夏师范学院学报, 2019, 40(07): 72-78.doi: 10.3969/j.issn.1674-1331.2019.07.012 |
| [6] |
赵菲. 基于WebGL的古建筑BIM模型轻量化研究与实现[D]. 西安建筑科技大学, 2018. |
| [7] |
张卫强, 陈昌黎, 成蕾. 基于微信小程序的BIM轻量化模型浏览系统的设计与实现[J]. 科学技术创新, 2021(14): 83-85.doi: 10.3969/j.issn.1673-1328.2021.14.038 |
| [8] |
薛涛, 邓业鹏, 范世旭, 等. 虚拟现实技术在教育领域的应用[J]. 数字技术与应用, 2020, 38(06): 53-54. |
| [9] |
BORTOLAN G, DEGANI R. A review of some methods for ranking fuzzy subsets[J]. Fuzzy Sets & Systems, 1985, 15(1): 1-19. |
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