摘要
针对城市地下管网管理中存在的监测滞后与应急响应低效等问题,提出基于物联网的“感知-传输-分析-决策”一体化技术框架,融合多源传感、边缘计算与数字孪生平台,构建虚实映射的智能管网系统。研究表明,该体系可显著增强事故预警能力与运维响应效率,推动管网管理从被动处置向主动防控转变。该研究为智慧管网建设提供了可扩展的技术路径,具备良好的工程应用前景。
In response to issues such as delayed monitoring and inefficient emergency response in urban underground pipeline management,this paper proposes an integrated technological framework of“perception-transmissionanalysis-decision”based on the Internet of Things.This framework incorporates multi-source sensing,edge computing,and a digital twin platform to establish an intelligent pipe network system with virtual-real mapping.Research indicates that this system can significantly enhance accident early warning capabilities and improve the efficiency of operation and maintenance responses,thereby shifting pipeline management from passive handling to proactive prevention and control.This study provides a scalable technological pathway for the construction of smart pipeline networks and demonstrates promising prospects for engineering applications.
作者
廖锶禾
LIAO Sihe(Guangdong Engineering Polytechnic,Guangzhou 510520,China)
出处
《广东轻工职业技术大学学报》
2025年第6期20-24,共5页
Journal of Guangdong Industry Polytechnic university
关键词
智慧城市
物联网
地下管网
数字孪生
智能运维
smart city
Internet of Things
underground pipeline network
digital twin
intelligent operation and maintenance
