I. Background
The State Council's Decision Part III emphasizes strengthening monitoring, forecasting, and early warning. It calls for improving monitoring networks, accelerating information sharing platforms, and deploying professional monitoring equipment.
Our geological disaster online monitoring and warning system integrates smart sensing, IoT, cloud computing, embedded technology, and multimedia IT. It uses our proprietary software and hardware to deliver reliable, practical, and professional monitoring solutions with timely and accurate data.
II. Monitoring Project Panorama
Technical Features:
- Professional: Designed for six major geological disasters (landslide, collapse, ground fissure, debris flow, ground subsidence, unstable slope).
- Standard: Each monitoring item strictly follows national standards.
- Adaptable: Suitable for various field environments; solar-powered terminals and wireless data transmission (WIFI, NB).
- Practical: Terminals withstand harsh outdoor conditions and are durable.
III. Monitoring Overview
IV. System Topology
V. Landslide Online Monitoring
VI. Landslide Monitoring Checklist
VII. Landslide Online Monitoring and Warning System Plan
Surface Deformation Monitoring
Deep Subsurface Deformation Monitoring
Multi-point inclinometers are used for depth displacement monitoring. Advantages: when displacement occurs, comparison of each point's data identifies location and magnitude; accumulated data aids empirical analysis. Jinghe also proposes a "one hole, multiple uses" concept to reduce construction cost without compromising monitoring.
Physical & Chemical Field Monitoring, Groundwater Dynamics and Trigger Factor Monitoring
Per standards: use load cells and multi-point displacement meters for prestressed anchor monitoring; use pressure cells to measure landslide thrust or earth pressure on anti-slide piles. Monitoring includes building deformation and landslide ground stress.
Per standards: monitor groundwater level and pore water pressure along the main sliding direction. Includes groundwater level, pore water pressure, and rainfall (trigger factor).
VIII. Collapse Online Monitoring
Strictly follows "Collapse Monitoring Specification" (T/CAGHPXXX-2016) and "Collapse Prevention Engineering Investigation Specification" (T/CAGHP011-2018).
IX. Collapse Online Monitoring and Warning System Plan
Toppling Collapse Monitoring
Per 2016 specification, toppling collapse monitoring includes: surface absolute displacement, crack relative displacement, ground tilt, and rock/soil stress. Our system focuses on these four items.
Sliding/Bulging Collapse Monitoring
Per 2016 specification, sliding/bulging collapse monitoring includes: surface absolute displacement, crack relative displacement, deep displacement, precipitation, and groundwater level. Our system focuses on these five items.
Tension/Snap Collapse Monitoring
Per 2016 specification, tension/snap collapse monitoring includes: surface absolute displacement and crack relative displacement. Our system focuses on these two items.
Equipment Parameter Comparison
All products used in the collapse monitoring system meet or exceed Level 1 monitoring accuracy requirements of the 2016 specification.
X. Debris Flow Online Monitoring
System strictly follows "Debris Flow Hazard Prevention Engineering Investigation Specification (Trial)" T/CAGHP 006-2018 and "Collapse, Landslide, Debris Flow Monitoring Specification DZ-T0221-2006".
XI. Debris Flow Online Monitoring and Warning System Plan
Meteorological and Hydrological Monitoring
Per 2006 specification, rainfall intensity and duration are critical. Our system uses tipping-bucket rain gauges for rainfall monitoring.
XII. Tunnel Online Monitoring System
Dynamic Element Monitoring
Per 2018 and 2006 specifications, our system focuses on fluid flow rate and fluid elevation.
XIII. Ground Subsidence Online Monitoring
Strictly follows "Ground Subsidence Survey and Monitoring Specification DZ T0283-2015".
XIV. Ground Subsidence Online Monitoring and Warning System Plan
Surface Deformation Monitoring
Includes surface crack displacement monitoring (using crack gauges) and surface displacement monitoring (using GNSS receivers).
Groundwater Dynamic Monitoring
Includes groundwater level monitoring (using water level gauges) and pore water pressure monitoring (using piezometers).
Deep Subsurface Deformation Monitoring
XV. Equipment Introduction
Contact: Yang 15970160621. Note: Technical support and cooperation provided by Weihai Jinghe Digital Mining Co., Ltd. and Jiangxi Deer Intelligent Technology Co., Ltd.
The State Council's Decision Part III emphasizes strengthening monitoring, forecasting, and early warning. It calls for improving monitoring networks, accelerating information sharing platforms, and deploying professional monitoring equipment.
Our geological disaster online monitoring and warning system integrates smart sensing, IoT, cloud computing, embedded technology, and multimedia IT. It uses our proprietary software and hardware to deliver reliable, practical, and professional monitoring solutions with timely and accurate data.
II. Monitoring Project Panorama
Technical Features:
- Professional: Designed for six major geological disasters (landslide, collapse, ground fissure, debris flow, ground subsidence, unstable slope).
- Standard: Each monitoring item strictly follows national standards.
- Adaptable: Suitable for various field environments; solar-powered terminals and wireless data transmission (WIFI, NB).
- Practical: Terminals withstand harsh outdoor conditions and are durable.
III. Monitoring Overview
IV. System Topology
V. Landslide Online Monitoring
VI. Landslide Monitoring Checklist
VII. Landslide Online Monitoring and Warning System Plan
Surface Deformation Monitoring
Deep Subsurface Deformation Monitoring
Multi-point inclinometers are used for depth displacement monitoring. Advantages: when displacement occurs, comparison of each point's data identifies location and magnitude; accumulated data aids empirical analysis. Jinghe also proposes a "one hole, multiple uses" concept to reduce construction cost without compromising monitoring.
Physical & Chemical Field Monitoring, Groundwater Dynamics and Trigger Factor Monitoring
Per standards: use load cells and multi-point displacement meters for prestressed anchor monitoring; use pressure cells to measure landslide thrust or earth pressure on anti-slide piles. Monitoring includes building deformation and landslide ground stress.
Per standards: monitor groundwater level and pore water pressure along the main sliding direction. Includes groundwater level, pore water pressure, and rainfall (trigger factor).
VIII. Collapse Online Monitoring
Strictly follows "Collapse Monitoring Specification" (T/CAGHPXXX-2016) and "Collapse Prevention Engineering Investigation Specification" (T/CAGHP011-2018).
IX. Collapse Online Monitoring and Warning System Plan
Toppling Collapse Monitoring
Per 2016 specification, toppling collapse monitoring includes: surface absolute displacement, crack relative displacement, ground tilt, and rock/soil stress. Our system focuses on these four items.
Sliding/Bulging Collapse Monitoring
Per 2016 specification, sliding/bulging collapse monitoring includes: surface absolute displacement, crack relative displacement, deep displacement, precipitation, and groundwater level. Our system focuses on these five items.
Tension/Snap Collapse Monitoring
Per 2016 specification, tension/snap collapse monitoring includes: surface absolute displacement and crack relative displacement. Our system focuses on these two items.
Equipment Parameter Comparison
All products used in the collapse monitoring system meet or exceed Level 1 monitoring accuracy requirements of the 2016 specification.
X. Debris Flow Online Monitoring
System strictly follows "Debris Flow Hazard Prevention Engineering Investigation Specification (Trial)" T/CAGHP 006-2018 and "Collapse, Landslide, Debris Flow Monitoring Specification DZ-T0221-2006".
XI. Debris Flow Online Monitoring and Warning System Plan
Meteorological and Hydrological Monitoring
Per 2006 specification, rainfall intensity and duration are critical. Our system uses tipping-bucket rain gauges for rainfall monitoring.
XII. Tunnel Online Monitoring System
Dynamic Element Monitoring
Per 2018 and 2006 specifications, our system focuses on fluid flow rate and fluid elevation.
XIII. Ground Subsidence Online Monitoring
Strictly follows "Ground Subsidence Survey and Monitoring Specification DZ T0283-2015".
XIV. Ground Subsidence Online Monitoring and Warning System Plan
Surface Deformation Monitoring
Includes surface crack displacement monitoring (using crack gauges) and surface displacement monitoring (using GNSS receivers).
Groundwater Dynamic Monitoring
Includes groundwater level monitoring (using water level gauges) and pore water pressure monitoring (using piezometers).
Deep Subsurface Deformation Monitoring
XV. Equipment Introduction
Contact: Yang 15970160621. Note: Technical support and cooperation provided by Weihai Jinghe Digital Mining Co., Ltd. and Jiangxi Deer Intelligent Technology Co., Ltd.
