GNSS Positioning & Navigation Systems, Mobile Mapping UAV LiDAR & Unmanned Surface Vehicles

CHCNAV Releases the RS10 SLAM Laser Scanner

CHC Navigation unveils the RS10, an innovative handheld SLAM laser scanner with an integrated RTK GNSS receiver By Sarah Simpson / 05 Apr 2024
CHCNAV Releases The RS10 SLAM Laser Scanner
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Leading provider of GNSS and inertial navigation solutions for professional geospatial and mapping applications CHC Navigation (CHCNAV), has launched the RS10, an innovative and affordable handheld SLAM LiDAR laser scanner integrated with an RTK GNSS receiver.

CHCNAV GNSS navigation products provide high-accuracy spatial and timing data for smart robotics and unmanned systems, including UAVs and USVs. The company specializes in innovative mapping, navigation, and positioning solutions for geomatics professionals worldwide.

Designed to improve efficiency across a wide range of mapping and surveying applications, the RS10 laser scanner provides professionals with a versatile, all-in-one tool for capturing rich 3D geospatial data in both outdoor and indoor environments.

Combining a survey-grade GNSS RTK receiver with the handheld LiDAR SLAM system, the RS10 simplifies workflows without compromising accuracy or flexibility.

We are excited to introduce the RS10, which represents another milestone in CHC Navigation’s ongoing mission to push the boundaries of 3D geospatial data capture,” said Byron Yuan, Senior Vice President of CHCNAV. “With its unique fusion of technologies in a handheld format, the RS10 provides an incredibly affordable solution for 3D LiDAR-SLAM reality capture and demanding GNSS RTK surveying projects.”

RTK & SLAM Fusion for Better Accuracy Mapping

The RS10 integrates a state-of-the-art GNSS Smart Antenna for RTK positioning accuracy even in challenging environments. Combined with the system’s high-precision LiDAR and three HD cameras, it fuses RTK, laser, and visual SLAM to deliver 5cm absolute measurement accuracy. From detailed architectural surveys to complex infrastructure projects, the RS10 gives professionals the tools they need to collect detailed, accurate data efficiently.

Real-Time SLAM Capabilities

With a powerful on-board processor, the RS10 scanner enables real-time georeferenced point cloud generation in the field. Users receive instant feedback, allowing them to make adjustments while scanning to ensure complete and detailed coverage. Large sites up to 13,000 square meters can be mapped in real-time.

Efficient Loop-Free Operation

The integration of high-precision GNSS and SLAM technologies eliminates the need for traditional loop closure, which often complicates the data collection process for handheld scanners. Users can freely scan target areas without having to return to previous locations. This streamlines field data capture and significantly reduces time spent in the field.

CHCNAV unveils the RS10
The surveying and mapping with the RS10 in the indoor and outdoor environments

Seamless Outdoor to Indoor Mapping

The RS10 provides a seamless workflow for surveying projects spanning outdoor and indoor spaces. Its integrated RTK receiver offers robust positioning outdoors while SLAM takes over when transitioning indoors – all within a shared coordinate system without requiring additional georeferencing steps. Users can select the desired projection system directly in the field by using either the SmartGo App or LandStar8 software.

For indoor and some outdoor environments where GNSS signals are weak or absent, the RS10 calculates accurate RTK point coordinates, ensuring measurements with 5 cm precision within 1 minute in satellite-denied environments, opening up new possibilities for surveying indoor spaces and urban canyons.

New Surveying Experience

The RS10’s Vi-LiDAR technology offers a new mode of RTK surveying that combines GNSS rover capabilities with laser scanning for contactless offset measurements. By simply selecting the point to be measured in the LandStar8 software, its three-dimensional coordinates are calculated in real-time from the intersection of the RTK-origin segment and the LiDAR point cloud to an accuracy of 5 cm within 15 m (50 ft).

To learn more, contact CHC Navigation: Visit Website Send Message View Supplier Profile
Posted by Sarah Simpson Specialising in digital copy Sarah is an experienced copywriter and researcher. Working with Unmanned Systems Technology Sarah has developed a passion for sourcing unique digital content and a talent for writing about the latest technical innovations in the unmanned sector. Connect & Contact