建筑行业的数字化与BIM和3D机器控制集成,以提高施工绩效。

Iwan Hermawan, Sutardi Sudirman
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引用次数: 0

摘要

印度尼西亚共和国政府通过2014年第100号总统条例和2015年第117号总统条例的目标是从巴卡乌尼到班达亚齐的全长2770公里的跨苏门答腊收费公路的建设将于2024年完全建成。在项目阶段有两个关键阶段,即规划和施工阶段。规划阶段使用建筑信息模型(BIM)进行,而施工阶段将BIM与3D-Machine-Control集成。本研究以跨苏门答腊北干巴鲁-曼谷收费公路40公里为研究案例。数据采集方法采用定性和定量方法在整个领域的实验进行。本研究对LiDAR无人机数字测量精度进行了检验,对LOD 200、300、400进行了BIM的实施,验证了3D-Machine-Control电机平地机在高程切割工程中的使用效率,以及3D-Machine-Control振动压实机在提高路基和基层土壤压实精度方面的应用。结果表明,无人机激光雷达的地形数据精度在LE90以内,精度为0.176 cm。三维机械控制的优化可以实现土方工程与设计的相似,也可以用于质量和数量控制。采用三维机械控制的电机平地机进行高程切割的时间效率为47%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Digitalization of The Construction Industry with BIM and 3D Machine Control Integration for Construction Performance Improvement.
The Government of the Republic of Indonesia through Presidential Regulation Number 100 of 2014 and Presidential Regulation Number 117 of 2015 aims the construction of the 2770 km Trans Sumatra Toll Road from Bakauheni to Banda Aceh to be fully constructed by 2024. There are two key stages in the project phase, i.e planning and construction stages. The planning stage is carried out using the Building Information Model (BIM), while the construction phase integrates BIM with 3D-Machine-Control. This study is conducted in Trans Sumatera Pekanbaru - Bangkinang’s Toll Road with 40 kilometers long as a study case. The data acquisition methodology is conducted using qualitative and quantitative methods throughout the field’s experiments. This study conducted the examination of the LiDAR UAV digital survey’s accuracy, the BIM implementation on Level of Development (LOD) 200, 300, and 400, verification of the usage of Motor Grader with 3D-Machine-Control efficiency in elevation cutting works, and the application of Vibro Compactor with 3D-Machine-Control for improving the accuracy of soil compaction on the subgrade and base course. The results showed that the topographic data from UAV LiDAR are accurate within LE90 accuracy with 0.176 cm. The optimalization of 3D-Machine-Control could carry out the earthworks as similar as design also can be used as quality and quantity control. The time efficiency which obtained from implementing Motor Grader with 3D-Machine-Control for elevation cutting application is 47%.
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