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水利工程白蚁智能监测标准化建设路径OA

Standardization path for intelligent monitoring of termites in water conservancy projects

中文摘要英文摘要

土栖白蚁长期危害我国水库、堤防、水闸等水利工程安全,其活动隐蔽、持续时间长、巢穴系统复杂,破坏具有累积性,并易与渗流、汛情等风险耦合,已成为影响水利工程长期安全运行的重要隐患.随着物联网感知、图像识别、边缘计算和人工智能等技术快速发展应用,水利工程白蚁防治正由人工巡查和经验处置向智能监测、连续感知和数据驱动预警转变.然而,当前水利工程白蚁智能监测仍存在系统架构不统一、终端能力边界不清晰、数据接口与通信协议不兼容、平台能力缺乏统一要求、测试验收缺少统一依据等问题.本文在梳理国内外相关标准化现状的基础上,识别水利工程白蚁智能监测在总体架构、监测终端、数据通信、监测平台和测试评价等方面的关键研究空白,围绕水利工程场景需求开展系统性标准化研究,提出将水利工程白蚁智能监测的标准化对象归纳为总体架构层、感知终端层、数据传输层、平台应用层和测试评价层,从总体架构与术语定义、地上监测终端、地下监测终端、数据通信与接口、平台功能与性能、测试与评价6个重点方向推进,可为后续相关标准研制、工程建设实施和行业规范建设提供参考.

Subterranean termites have long threatened the safety of water conservancy projects in China,including reservoirs,embankments,and sluices.Their concealed activities,long duration,complex nest systems,cumulative nature of damage,and susceptibility to coupling with risks such as seepage and flood conditions have made them a major hidden danger affecting the long-term safe operation of water conservancy projects.With the development of Internet of Things sensing,image recognition,edge computing,and artificial intelligence technologies,termite control in water conservancy projects is facing a transition from manual inspection and experience-based treatment to intelligent monitoring,continuous perception,and data-driven early warning.However,current intelligent termite monitoring in water conservancy projects still faces challenges such as inconsistent system architectures,unclear capability boundaries of terminal devices,incompatible data interfaces and communication protocols,the lack of unified requirements for platform capabilities,and the absence of standardized criteria for testing and acceptance.Based on a review of relevant domestic and international standardization practices,this paper identified the key research gaps in overall architecture,monitoring terminals,data communication,monitoring platforms,and testing and evaluation for intelligent termite monitoring in water conservancy projects.Systematic standardization research was conducted based on the scenario-specific requirements of water conservancy projects.It is proposed that the standardization objects for intelligent termite monitoring in water conservancy projects be categorized into five layers:overall architecture layer,sensing terminal layer,data transmission layer,platform application layer,and testing and evaluation layer.Standardization should be advanced in six key directions:overall architecture and terminology definition,above-ground monitoring terminals,underground monitoring terminals,data communication and interfaces,platform functions and performance,as well as testing and evaluation.This can serve as a reference for the subsequent development of relevant standards,the implementation of engineering construction,and the establishment of industry norms.

童学卫;孟祥曦;张娟娟;胡铂

水利部河湖保护中心,100038,北京国家工业信息安全发展研究中心,100040,北京国家工业信息安全发展研究中心,100040,北京国家工业信息安全发展研究中心,100040,北京

建筑与水利

水利工程土栖白蚁智能监测标准化研究数据通信监测平台测试评价

water conservancy projectsubterranean termiteintelligent monitoringstandardization researchdata communicationmonitoring platformtesting and evaluation

《中国水利》 2026 (10)

17-25,9

10.3969/j.issn.1000-1123.2026.10.003

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