Integrated Solution for Smart Water Affairs

The Implication of Smart Water Conservancy
The construction of "Smart Water Conservancy" is a key livelihood project and an important component of "New Smart Cities". Centered on systems such as flood control and disaster relief, water resource allocation, water ecological environment protection, and water management services, it can be summarized as "IoT perception, information interconnection, intelligent decision-making, and smart management". The core of Smart Water Conservancy lies in deeper perception, broader information interconnection, and more advanced intelligence, specifically manifested in more flexible information interconnection and mutual perception capabilities among things, between things and people, and among people within the water conservancy industry; more efficient and secure water conservancy information processing and resource integration capabilities; more scientific water conservancy monitoring, early warning, analysis, prediction, and management capabilities; higher-quality remote control and intelligent execution capabilities for water conservancy facilities; and more harmonious water conservancy business coordination and multi-level, multi-location collaboration capabilities.

1. Hydrological Monitoring System
   Including rainfall information monitoring, water level information monitoring, tide level information monitoring, flow rate information monitoring, evaporation monitoring, soil moisture monitoring, groundwater monitoring, etc.
2. Water Pollution Control Monitoring System
   Mainly including water quality information monitoring, ecological environment monitoring, sewage outlet monitoring, etc.
3. Project Operation Control System
   Mainly including remote monitoring and control of water conservancy hubs, sluices, sewage treatment plants; safety monitoring of rivers, embankments, and seawalls; water intake monitoring; video surveillance systems, etc.
4. Groundwater Monitoring System
   Capable of long-term monitoring of basic parameters such as groundwater level, temperature, and water quality, and automatically storing monitoring data. It can analyze the change patterns and trends of groundwater.
5. Hydrological Monitoring System for Small and Medium Rivers
   This system is suitable for remote monitoring of real-time hydrological conditions in natural rivers, artificial canals, landscape rivers, etc.
6. Intelligent Management System for Real-Time Water Source Monitoring
   Used by water utilities to monitor the water volume, water level, and water quality of surface water and groundwater. It helps water authorities understand the current status and trends of water resources in the region, strengthen the collection of water resource fees, and conduct proper evaluations of water sources.
7. Water Level and Rainfall Monitoring System for Water Conservancy Hubs/Lakes
   This system is suitable for water management agencies to remotely monitor real-time data such as water levels and rainfall in water conservancy hubs/lakes, as well as on-site images. It facilitates timely tracking of water volume changes in hubs/lakes to ensure appropriate water storage and safe flood control.
8. Mountain Flood Disaster Monitoring and Early Warning System
   Integrating functions such as information collection, transmission, analysis, and early warning, it ensures timely and accurate dissemination of early warning information. This enables potentially affected areas to promptly adopt reasonable measures, minimizing casualties and property losses to the greatest extent possible.
9. Soil Moisture Monitoring System
   Monitors information such as soil temperature, soil layer conductivity, soil pH, groundwater level, groundwater quality, as well as air temperature, air humidity, light intensity, wind speed and direction, rainfall, etc., to meet the needs of functional upgrades.