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Background and pain points
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Overview & Architecture
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Features & Benefits
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Values & Cases
Background and pain points
As an important water regulation and flood control facility, the management and operation of reservoirs are crucial to ensuring regional water security. However, there are some pain points in the traditional water level monitoring methods in reservoir water and rain monitoring:
Delayed data collection: Manual recording of traditional water level gauges or outdated automated equipment often leads to delays in data collection, which cannot reflect changes in reservoir water levels in a timely manner.
Large environmental impact: Traditional water level gauges are susceptible to environmental factors such as water surface fluctuations, ice floes, and sediment, resulting in inaccurate measurements.
Complex maintenance: Some water level gauges require frequent maintenance and calibration, especially in reservoir environments, where maintenance is complex and costly.
Insufficient real-time early warning: Traditional systems lack real-time monitoring and early warning functions, and cannot issue timely warnings when the water level is abnormal, increasing the risk of flooding.

Overview & Architecture
The radar water level monitoring system of Hangzheng Technology uses advanced radar technology to carry out high-precision non-contact monitoring of the reservoir water level, which solves many pain points in traditional methods. The application scheme architecture is as follows:
Radar water level gauge: Installed at key locations in reservoirs, it measures water level changes through radar wave reflection and provides high-precision real-time data.
Data acquisition and transmission system: The radar water level gauge transmits the real-time collected water level data to the data processing center through wireless or wired network.
Data processing and analysis platform: The data center processes, stores and analyzes the collected data in real time, and generates water level change trends and prediction models.
Real-time monitoring and early warning system: It provides a real-time monitoring interface, and the system can automatically issue early warnings when the water level reaches the preset threshold, supporting the management department to carry out emergency response.
Integrated weather data: Integrate with meteorological data, combine rainfall, temperature and other information for comprehensive analysis to predict the trend of reservoir water level.
Features & Benefits
High-precision non-contact measurement: The radar water level gauge avoids the influence of environmental factors such as water surface fluctuations and ice floes through non-contact radar technology, and ensures the accuracy of measurement.
Real-time data transmission: The system can obtain water level data in real time and transmit it to the data processing center in time to support rapid response and decision-making.
Low Maintenance: Radar level gauge equipment is durable and requires low maintenance, reducing monitoring interruptions due to equipment failure or maintenance issues.
Intelligent early warning function: The system can automatically issue early warnings according to the set water level threshold, and predict water level changes based on weather data, so as to carry out risk warnings in advance.
Data integration and analysis: Comprehensively analyze water level data, rainfall, meteorological data and other information to provide comprehensive reservoir water and rain dynamics and help management departments make scientific decisions.

Values & Cases
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Improve the accuracy of water level monitoring
The high-precision data provided by the radar water level gauge can accurately reflect the actual water level of the reservoir and ensure the scientific and reliable management of the reservoir.
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Real-time alerting and risk management
Real-time monitoring and intelligent early warning functions help management departments detect water level anomalies in a timely manner, reduce potential flood risks, and improve emergency response capabilities.
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Reduce maintenance costs
The low maintenance and high durability of the equipment reduce long-term operating and maintenance costs and increase the economic efficiency of the system
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Improve decision-making efficiency
Integrated weather data and intelligent analytics provide accurate data support for reservoir operations and scheduling, optimizing water management.