摘要
本文针对传统建筑施工管理中存在的构件定位模糊、进度反馈滞后、能耗监测分散与风险响应迟缓等问题,构建基于建筑信息模型(BIM)与物联网融合架构的智能建造应用体系。依托实际项目,从构件追踪、进度联动、能耗采集与预警反馈四个维度展开研究。实测结果表明,该体系在多方面均表现出较高适配性与工程实效,为智能建造在实际工程场景中的落地提供可行路径与示范依据。
Aiming at the problems existing in traditional building construction management,such as ambiguous component positioning,lagging progress feedback,scattered energy consumption monitoring and slow risk response,an intelligent construction application system based on the integrated architecture of BIM and the Internet of Things is constructed.Based on actual projects,technical deployment is carried out from four dimensions:component tracking,progress linkage,energy consumption collection and early warning feedback.The measured results show that this system demonstrates high adaptability and engineering effectiveness in multiple aspects,providing a feasible path and demonstration basis for the implementation of intelligent construction in practical engineering scenarios.
作者
邓连波
Deng Lianbo(Kunming University of Science and Technology,Kunming,650031)
出处
《建设科技》
2025年第17期87-89,共3页
Construction Science and Technology
关键词
BIM技术
物联网
智能建造
构件定位
施工监测
BIM technology
Internet of Things
intelligent construction
component positioning
construction monitoring
