Various measuring instruments are installed in large-scale water supply pipelines to monitor the structural condition of the pipelines through the measurement data of the instruments, and as a result, depending on the level of risk, field surveys or precision inspections are performed to diagnose and evaluate the pipelines and take a preemptive response It relates to a GIS-based diagnostic monitoring integrated management system for a large-scale water supply pipeline, comprising: a GIS information management unit that stores and manages GIS information; a facility management unit for storing and managing facility information including a pipeline, a measuring instrument installed in the pipeline, and a location thereof; a structure information collecting unit for collecting the structural information measured by the measuring instrument; a field information collection unit for collecting field investigation information received from the field in charge terminal; a precision detection collection unit for collecting precision detection information measured by the diagnostic equipment; And, to prepare a configuration including an analysis unit that analyzes the collected information to determine the risk level. By detecting and analyzing the pipeline step by step, such as the structural condition monitoring step of the pipeline by the measuring instruments installed in the pipeline, the analysis step by field investigation, and the precise flaw detection step using a precision search device by the system as described above, cost and time can be saved. While minimizing consumption, at the same time, it is possible to accurately analyze the condition of the pipeline and respond in advance.
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