Smart Irrigation District Management Platform
1.IoT Integration:Smart terminals equipped with industrial-grade storage chips support operation in extreme environments ranging from -40°C to 85°C. They can locally store data for 72 hours even during power outages or network disruptions.
2.Intelligent Algorithms:Deep learning models are applied to predict irrigation needs. In the Hetao Irrigation District of Inner Mongolia, this has achieved an 18% reduction in average water consumption per mu.
3.Automated Control:Gate controllers are linked with water pumps to automatically adjust the opening degree according to water level changes, with a precision of ±1 cm.
Smart Irrigation District System a modern agricultural water management platform centered on IoT, digital twin, and intelligent algorithm technologies. Through building a closed-loop system of "perception-analysis-decision-control", it achieves efficient utilization and precise scheduling of water resources. System Architecture
1. Intelligent Perception Layer
Deploy sensors such as Doppler ultrasonic flowmeters and radar water level meters to collect real-time data on channel flow, soil moisture, and meteorological conditions, forming a full-domain monitoring network.
Integrate video surveillance and drone inspections to enable remote visual management of gate statuses and crop growth.
2. Multi-Level Transmission Architecture
Adopt 4G/5G wireless communication and LoRa low-power networking technologies to ensure stable data transmission in remote farmland areas.
Build a provincial-municipal-county three-level cloud platform architecture to support hierarchical data storage and differentiated permission management.
3. Digital Twin Foundation
Integrate GIS geographic information and 3D modeling technologies to create digital mirrors of irrigation canals, pump stations, and other facilities, supporting dynamic water volume scheduling rehearsals.
Core Functions
Real-Time Monitoring
Collect water level/flow data every minute; abnormal fluctuations trigger audible and visual alarms (e.g., automatic pump locking when electromagnetic flowmeters exceed instantaneous thresholds). Intelligent Scheduling
Generate water distribution plans based on crop water demand models, supporting remote control of gate opening/closing (response time <10 seconds).
Water Rights Management
Achieve digital configuration of tiered water pricing and water rights trading, supporting automatic billing for excessive water usage and subsidy distribution.
Drought and Flood Early Warning
Combine meteorological forecasts with soil water content data to generate drought resistance/flood drainage plans 72 hours in advance.
