Best rated portable lidar scanner provider: We offer a variety of robot chassis, including tracked, wheeled, and Automated Guided Vehicle (AGV) platforms, suitable for industrial, security, and logistics applications. These chassis feature high payload capacity, all-terrain adaptability, and intelligent navigation systems, enabling efficient automation solutions. Our UGV Crawler Chassis offers robust all-terrain mobility for demanding applications. Designed for payloads ranging from 50kg to 120kg, these platforms are ideal for outdoor inspections, remote operations, and security tasks. Featuring advanced navigation and rugged track designs, they ensure stable performance on various terrains. Read more info at https://www.foxtechrobotics.com/Handheld-LiDAR.
SLAM100 is the first handheld mobile lidar scanner launched by Feima Robotics. Thesystem has a 360° rotating head, which can form a 270°x360° point cloud coverage.Combined with the industry-level SLAM algorithm, it can obtain high-precision three.dimensional point cloud data of the surrounding environment without light and GPS. SLAM200 is the third generation high-precision handheld laser scanner. SLAM200 LiDAR Scanner features a panoramic camera, a higher-performance laser sensor, built-in GNSS module and a more powerful processing unit, offering higher precision, finer details, and more convenient functions. SLAM200 handheld Lidar Scanner is a more efficient and convenient measurement tool to obtain high-precision 3D point cloud data of the surrounding environment.
Humanoid Robots Entering the Workforce – A major breakthrough has emerged as humanoid robots transition from lab demonstrations to industrial applications. In recent months, automotive factories have begun deploying humanoid robots on assembly lines, marking a significant step towards their integration into real-world manufacturing processes. For instance, some automotive manufacturers are utilizing humanoid robots for logistics sorting, assembly tasks, and quality inspections. These robots work alongside human employees, improving efficiency, reducing labor costs, and addressing workforce shortages. This shift signifies a move away from robotics as mere spectacles toward their evolution as functional, productive assets.
In a coal bunker project, high-precision handheld SLAM equipment was used to scan the surface of material piles. The resulting point cloud was processed to reconstruct the 3D shape and calculate the stockpile volume. When paired with density values, the system could also compute total material weight. Two sets of tunnel scan data were collected using explosion-proof equipment for excavation deviation analysis. The following figures present sample data and report results (anonymized): Tunnel cross-section model, Over/under-excavation deviation report. Fully domestically developed: Core technologies are 100% local, ensuring data security and supply chain independence. Discover additional details on foxtechrobotics.com.
Historical Architecture Scanning – In this field, aerial mode completes fast scanning of upper structures, while handheld mode captures complex interior and lower details. This innovative solution avoids traditional operation risks, significantly improves efficiency, and helps complete heritage scans with safety, speed, and precision. Indoor Real Estate Surveying – In indoor property mapping, the handheld mode of SLAM200 shows outstanding performance. It can replicate interior layouts and dimensions at a 1:1 scale, greatly improving surveying efficiency and accelerating project completion. Traditional methods struggle to obtain top-level facade data due to limitations in scan angles and range, resulting in sparse point clouds and missing details. Drone-mounted LiDAR systems typically cannot scan vertically along building facades and require extra equipment investments. SLAM200 solves this through its aerial mode—by mounting it on a drone and running SLAM algorithms in real time, it enables vertical scanning along facades. When combined with handheld ground data, it overcomes single-perspective limitations and builds comprehensive, high-precision 3D facade models. In this case, data from three 12-story buildings was collected using both modes, and integration of aerial and handheld data provided more complete facade data.
Portable lidar scanners might seem like a big investment upfront. However the long-term cost savings and return on investment (ROI) can be significant. Think about it: less time in the field, reduced labor costs, and fewer errors mean money saved. Plus, the increased efficiency and productivity can lead to new revenue streams. It’s not just about saving money; it’s about making more money. Imagine a construction company that uses lidar to track project progress. They can identify potential delays early on and take corrective action, avoiding costly overruns. Or consider a forestry company that uses lidar to estimate timber volume. They can optimize their harvesting operations and maximize their profits. Lidar isn’t just an expense; it’s an investment in your future.