Why Emesent's Hovermap ST-X is Redefining SLAM LiDAR Mapping Accuracy in 2025
The LiDAR mapping space is no stranger to innovation, but every now and then, a technology sets a new benchmark that redefines expectations. Emesent ’s latest Hovermap Accuracy Report delivers exactly that. Based on independent testing at GeoWeek 2024 and head-to-head comparisons with both SLAM and TLS systems, the Hovermap ST-X emerges not just as a tool; but a class-leading solution.
Here’s why Hovermap is being recognised as the gold standard for accuracy, precision, and repeatability in SLAM-based LiDAR mapping.
A Decade of Innovation, A Heritage of Excellence
Hovermap’s SLAM engine—Wildcat—originated from Australia’s national science agency, CSIRO, the same institution behind Wi-Fi. Emesent’s founders were part of the original team that developed Zeb1 (the world’s first commercial SLAM LiDAR) and Wildcat represents the next-generation evolution of that legacy. In fact, during the DARPA Sub-T Challenge, Wildcat achieved a "zero percent deviation" result—beating out global robotics teams and proving its real-world robustness.
Tested Head-to-Head at GeoWeek 2024
Organised by the US Institute of Building Documentation (USIBD), the GeoWeek scanner evaluation provided a level playing field for leading LiDAR technologies. Vendors were tasked with scanning a complex, GPS-denied environment inside the Denver Convention Centre and producing deliverables suitable for a typical LOD 200 project.
Hovermap was tested under three real-world conditions:
Each scan was processed both with and without Emesent’s automated GCP workflow—a powerful feature in the Aura software suite that improves global accuracy and automates geo-referencing.
Real-World Results That Speak Volumes
Let’s get to the numbers. With GCPs applied, all three Hovermap scan types achieved:
The fast scan, remarkably, performed the best with an average global error of just 6.1mm and a pairwise error of 4.2mm. This is particularly impressive when you consider that this scan was done at speed, in an open loop, over a 300m course.
By contrast, other top scanners—both SLAM and TLS—produced global errors ranging from 21mm to 59mm.
What Sets Hovermap Apart?
Hovermap isn’t just a scanner—it’s an ecosystem engineered for precision. Here’s what makes the difference:
✅ Rotating LiDAR Puck: Ensures uniform, spherical coverage—essential for consistent feature detection across all orientations.
✅ Long-Range Sensors: 300m range (ST-X) means better loop closure and reduced SLAM drift in large or feature-poor environments.
✅ Advanced SLAM Matching: Wildcat’s continuous-time odometry and global optimisation phases handle large-scale loop closures with ease.
✅ Automated GCP Workflow: Automatically detects reflective targets without needing to stop scanning—saving time and reducing user error.
✅ ISO9001 Manufacturing & Rigorous Calibration: Every Hovermap unit is hand-assembled and tested in Australia for consistent output quality.
Outperforming TLS—Without the Trade-offs
Traditionally, Terrestrial Laser Scanners (TLS) have been the go-to for high-accuracy capture. But Hovermap is changing that equation.
In this test:
This isn't just about speed—although Hovermap did complete its fastest scan in 5 minutes, versus 126 minutes for TLS. It’s about repeatable, survey-grade results that are practical to capture and process.
Final Thoughts: A Leap Forward in SLAM Mapping
SLAM-based LiDAR systems are no longer a compromise on accuracy. With Hovermap ST-X and Aura, Emesent has demonstrated that it's possible to achieve sub-centimetre precision, even under aggressive or non-traditional scanning conditions.
Whether you're scanning underground tunnels, industrial facilities, or sprawling construction sites, Hovermap’s accuracy, adaptability, and ease-of-use are hard to match.
Coptrz is proud to be the only UK supplier of this incredible technology, and, we offer obligation free proof of concepts
Enquire on 0330 111 7177 or sales@coptrz.com