Intelligent monitoring and early warning system for pump station
By constructing an intelligent monitoring and early warning system for pumping stations, real-time mapping and multi-level coupling of the status of pumping stations across the entire basin were achieved. This solved the problems of insufficient data fusion and closed-loop optimization in existing technologies, improved the accuracy and security of pumping station scheduling schemes, and supported full lifecycle management.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- HUNAN XUNLANG INTELLIGENT TECHNOLOGY CO LTD
- Filing Date
- 2026-03-11
- Publication Date
- 2026-06-05
AI Technical Summary
Existing pumping station monitoring systems lack real-time fusion and digital twin mapping mechanisms for multi-source data across the entire watershed. The simulation and decision-making modules lack closed-loop optimization and adaptive update capabilities, resulting in a disconnect between information flow, decision flow, and execution flow. Pumping station equipment health indicators and lifecycle management are not fully integrated, predictive maintenance capabilities are insufficient, and the system as a whole cannot achieve multi-level coupling between historical data and real-time status, limiting the accuracy and security of scheduling schemes.
The system employs an intelligent monitoring and early warning system for pumping stations, comprising a data acquisition module, a data base module, a smart simulation module, an intelligent decision-making module, a command and control module, an autonomous operation and maintenance module, and a refined management module. Through a multi-dimensional and multi-scale spatiotemporal data synchronization mechanism, it achieves real-time mapping of the status information of pumping stations across the entire basin, establishes a high-fidelity digital twin scenario, and forms a closed-loop scheduling scheme generation mechanism through iterative optimization of interfaces, thereby realizing the unified integration of information flow, decision flow, and execution flow among modules.
It realizes real-time mapping and multi-level coupling of the status of pumping stations and gate stations across the entire basin, improves the accuracy and security of scheduling schemes, supports the unified use of historical data indexing and real-time data, and builds a unified decision-making, execution and data closed loop, thereby improving management efficiency and security.
Smart Images

Figure CN122151668A_ABST