Digital Twins 100 Meters Down: Precision 3D Mapping Transforms High-Risk Mining Operations
In the depths where light fails and traditional surveying falters, a limestone mining operation faced the seemingly impossible task of documenting treacherous underground networks. The challenge: accurately map vertical shafts exceeding 100 meters and subterranean rivers without endangering personnel.
The solution: XGRIDS' Lixel L2 Pro scanner with Multi-SLAM technology, which created precise 3D models while cutting survey time by 80%. This digital twin now powers critical safety protocols, volumetric analysis, and operational planning—proving that when the mining industry's most challenging environments meet advanced 3D capture technology, the impossible becomes routine.
The resulting digitized version of the mine can help evaluate and eliminate safety risks commonly found in flooded mines and improve maintenance routines while reducing operational downtime. More importantly, digitizing mines can enhance management efficiency, improve overall operational control, and mitigate uncertainty, enabling mining companies to navigate industry challenges and pursue growth in a changing landscape.
Challenge: The Limitations of Traditional Underground Surveying
Underground mining operations present some of the most challenging environments for accurate spatial documentation.
A mining operation in eastern Guangdong, China deployed the Trimble SX10 total station to create a georeferenced 3D model of their limestone caverns. Despite establishing over 100 scanning stations, critical areas remained unmapped:
?Extreme Vertical Shafts: Drops exceeding 100 meters with steep, inaccessible walls
?Dynamic Water Features: Underground rivers and flooded sections creating unstable conditions
?Complex Tunnel Networks: Geometries inaccessible to tripod-based equipment
?Safety Concerns: High-risk environments where minimizing human exposure is critical
?Limited Access Points: Many areas unreachable with conventional equipment
"Some of these environments were simply impossible to document safely with traditional methods. We were making critical operational decisions based on incomplete data." — Mine Planning Engineer
When evaluating new technologies to complement traditional surveying tools, mining operators often encounter SLAM-based solutions promising flexibility and centimeter-level accuracy in a portable package. However, the underground environment demands careful technology selection, as not all SLAM systems can handle mining's unique challenges.
SLAM Technology Limitations in Mining Environments
It's important to note that underground mines pose exceptional challenges even for SLAM technology. In this limestone mine especially, the following features would render many SLAM solutions unviable:
?Feature-poor surfaces: Limestone walls often lack distinct visual features needed for traditional SLAM algorithms
?Reflective wet surfaces: Water features create unpredictable reflections that confuse standard sensors and create nightmares during post-processing
?Dust and particulate matter: Airborne particles interfere with optical systems
?GPS signal absence: Complete lack of satellite positioning for drift correction
?Presented with these challenges, it's not uncommon for mining operators to be hesitant about investing in a SLAM solution to complement or even replace traditional tools like total stations.
Advanced Multi-SLAM: The XGRIDS Difference
After evaluating multiple options, the mining operation implemented the XGRIDS Lixel L2 Pro (32-channel / 120m), a flagship handheld 3D laser scanner weighing less than 2kg (4.4lbs), to complement their existing surveying equipment.
Key Technology Components
The Lixel L2 Pro employs Multi-SLAM technology, combining:
? Advanced LiDAR: 360° × 270° field of view capturing 640,000 points per second
? Dual Visual Positioning: Two 48MP cameras, with the front camera providing visual SLAM capabilities
? Inertial Measurement Unit (IMU): Enabling accurate positioning without GPS signals
? Real-time Processing: On-device computation providing immediate data verification via LixelGO app
? Ruggedized Design: IP54-rated protection against dust and water splashes
? Multi-sensor fusion: Maintains accuracy even in feature-poor environments
? Proprietary filtering: Correctly interprets reflective wet surfaces that confuse conventional scanners
? Lightweight design: Under 2kg handheld device for easy maneuverability in tight spaces
Implementation Process
The implementation followed a strategic workflow designed to maximize data quality while addressing extreme environmental challenges.
Data capture
1.Preliminary Site Assessment: Safety protocols and scanning routes established. Control points were marked with reflective targets and would be captured in multiple passes.
2.Initialization: the L2 Pro initialized on a flat surface for 20 seconds
3. Applying best practices in scanning an underground environment:
? Each survey control point was captured carefully to ensure complete coverage by both the LiDAR sensor and cameras.
? Whenever possible, the operator created small closed loops to bring the scanner back to a known location, minimizing drift.
4. Specialized Capture Techniques:
Subterranean River Mapping
Traditional static scanners like total stations cannot effectively document flowing water features or areas in their vicinity, especially when access is limited to small boats. The Lixel L2 Pro's handheld operation enabled operators to:
?Continuously scan while navigating on a small raft
?Maintain real-time visualization through the LixelGO mobile app
?Ensure complete coverage of ceiling, walls, and water surface
?Consistently capture data despite the movement of the boat
Vertical Shaft Documentation
With drops exceeding 100 meters, vertical shafts presented extreme safety and technical challenges:
?The lightweight, handheld Lixel L2 Pro allowed safer operation at shaft edges
?Multi-SLAM technology maintained positioning accuracy despite the challenging geometry
?Overlapping scan patterns ensured complete coverage of vertical surfaces
?Real-time feedback allowed immediate identification of data gaps
Data processing and Integration
A preview of the point cloud model of the section of the mine that was flooded and inaccessible by foot:
Here's a closer look at the tunnel:
Overview of the vertical shaft:
View from within the shaft:
Incorporating new scan data with existing survey information required precise alignment:
?The Trimble RealWorks coordinate transformation tool achieved registration accuracy of 4.8mm
?Point clouds from different sources merged seamlessly with no visible misalignment
?Consistent point density was maintained across all data sources
Coordinate transformation
For precise georeferencing, the team utilized Trimble RealWorks' point cloud registration module to perform coordinate transformation. By selecting reflective target centers at established traverse control points and inputting a minimum of three absolute coordinates, they ensured the point cloud data maintained absolute positional accuracy throughout the model.
Verifying accuracy
Data Integration
To build a complete 3D model of this limestone mine, the team imported the point cloud data of the river channel and shaft from the L2 Pro into the model created using the Trimble SX10 total station. After applying absolute coordinate transformation, both datasets aligned perfectly without any registration errors.
River channel
Vertical shaft
3D Mesh Volumetrics
Using Trimble RealWorks' triangulation mesh creation tools, a complete 3D mesh model of the mine cavern was generated. The raw mesh underwent post-processing refinement in the GeoMagic software to ensure accuracy and eliminate artifacts.
Results: Transforming Underground Documentation
The implementation of XGRIDS' technology delivered multiple benefits:
? 4.8mm registration accuracy when aligning L2 Pro point clouds with existing control networks
? 114,548.3m3 volume calculation enabling precise measurement of previously unmappable areas
? Zero safety incidents by eliminating high-risk manual measurements in hazardous locations
Qualitative Benefits
? Comprehensive digital twin supporting advanced planning and simulation scenarios
? Enhanced safety management through detailed visualization of unstable zones and escape routes
? Improved extraction planning optimizing resource utilization with accurate geological modeling
? Environmental monitoring tracking water infiltration patterns and potential structural weaknesses
? Knowledge preservation creating permanent digital record of inaccessible areas for future reference
? Reduced operational disruption with faster scanning requiring minimal site preparation
Business Impact: Beyond Mapping
The comprehensive digital documentation has the potential to transform mining operations in several ways:
Operational Efficiency
? Extraction Planning: More precise targeting of high-value deposits
? Equipment Routing: Optimized pathways for mining machinery
? Maintenance Scheduling: Better prediction of potential structural issues
Safety Enhancement
? Risk Assessment: Visual identification of hazardous areas
? Emergency Planning: Detailed evacuation routes and ventilation modeling
? Training: Immersive visualization for worker orientation
Regulatory Compliance
? Environmental Monitoring: Documentation of water management systems
? Structural Integrity: Verification of support systems and stability
? Records Management: Comprehensive documentation for regulatory reporting
Future Applications: The Digital Mine Ecosystem
The XGRIDS solution's flexibility and accessible data format enables mining operators to explore new ways to improve mining operations:
? Create predictive digital twins simulating extraction scenarios before implementation
? Develop VR training environments using actual mine geometry for worker education
? Implement autonomous vehicle navigation with high-fidelity reference maps
? Establish real-time monitoring systems comparing current conditions against baseline models, improving mine management and meeting compliance requirements.
? With its intuitive operation requiring minimal technical training, the XGRIDS L2 Pro democratizes advanced 3D mapping technology for mining operations of all sizes worldwide, creating a foundation for digitalization initiatives with immediate ROI and long-term strategic value.
Conclusion: Redefining What's Possible Underground
This limestone project demonstrates how XGRIDS' advanced 3D scanning technology is changing what's possible in underground mapping. Environments that were previously considered too dangerous, complex, or inaccessible can now be documented with unprecedented accuracy and efficiency.
The combination of mobility, precision, and real-time feedback offered by the Lixel L2 Pro has set a new standard for underground documentation, with implications extending far beyond mining to tunneling, civil engineering, hydroelectric facilities, and other subsurface infrastructure.
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