The system perceives all key elements of urban "plant-network-river" water quality, liquid levels, and flow rates. It builds GIS maps for drainage, establishes a comprehensive intelligent water management platform, and providessurveys, long-term monitoring, early warnings, operational scheduling, and guidance for upgrading and evaluations of drainage networks, sewage treatment plants, and water environments.

● Integrated plant-network-river monitoring on a unified map, utilizing GIS, big data dashboards, and charts to display the operational status of treatment plants, networks, and rivers.
● Diagnosis of pipeline network screening and three-dimensional simulation of pipeline networks with dynamic modeling of water quality and quantity. This helps assess pipeline conditions, providing decision-making support for maintenance and upgrades.
● Intelligent operation and management of sewage plants. It applys online intelligent systems to accumulate data on water quality and flow, building a management platform, and developing AI models and algorithms for process optimization in phosphorus removal and carbon source.
● Pollution tracing and pre-warning systems for real-time multi-level monitoring of water quality and flow, enabling early warnings and regulation of excessive discharges.
● Integrated plant-network-river smart scheduling, using sensed data for comprehensive analysis to balance inflow, coordinate clean and wastewater systems, and ensure the stable operation of treatment plants and water quality stability.

● Flow meters and water level meters
● Automatic water quality monitoring systems
● Intelligent control terminals
● Fully automated multi-channel water quality analysis systems
● Fully automated AI water quality testing labs