摘要
为提高建筑物的运维效率以及管理精度,给建筑运维管理工作打造更优质的解决方案。文中依托物联网(Internet of things,IoT)和建筑信息模型(Building information modoling,BIM)技术,设计的建筑工程全生命周期运维管理系统,并借助物联网技术,精准实现建筑工程实时数据的采集与监控作业。同时,紧密结合BIM模型,达成数据的可视化展示以及动态更新效果。构建起涵盖信息共享、数据管理、安全评估、应急管理等关键模块的系统,凭借高度集成的硬件和软件架构,全力确保数据流通实时、精准,还采用安全性设计举措。该系统能够深度分析历史数据与实时监控数据,成功做到故障预警以及性能预测,有力保障建筑使用安全。系统投入应用后,运维效率得到显著提升,运营成本得以有效降低。为基于物联网+BIM技术的建筑工程全生命周期运维管理系统切实可行提供参考。
To improve the operational efficiency and management accuracy of buildings,this study develops an optimized solution for building operation and maintenance(O&M)management.Leveraging Internet of Things(loT)and Building Information Modeling(BIM)technologies,a building engineering lifecycle O&M management system is designed.Utilizing IoT technology,the system enables precise real-time data collection and monitoring of building projects.In close integration with BIM models,it achieves data visualization and dynamic updates.The system encompasses key modules including information sharing,data management,safety assessment,and emergency management.With a highly integrated hardware and software architecture,it ensures real-time and accurate data flow and incorporates security design measures.The system can deeply analyze historical and real-time monitoring data to successfully provide fault warnings and performance predictions,thereby strongly guaranteeing building safety.After implementation,the system significantly improves O&M efficiency and effectively reduces operating costs.This research provides a practical reference for the development of building lifecycle O&M management systems based on IoT and BIM technologies.
作者
刘涛
唐文
LIU Tao;TANG Wen(Guangdong Yueneng Engineering Management Co.,Ltd.,Guangzhou 510630,China;Guangdong Constar Construction G Ltd.,Guangdong Zhuhai 519000,China)
出处
《低温建筑技术》
2025年第7期41-45,共5页
Low Temperature Architecture Technology
关键词
物联网
建筑信息模型(BIM)
建筑工程
全生命周期
运维管理
应急管理
安全评估
internet of things(lot)
building information modeling(BIM)
building engineering
life cycle
operation and maintenance management
emergency management
safety assessment
