Top slam scanner factory: Rapid Deployment in Urgent Situations – Unlike drones, which often require setup time and skilled operators, handheld LiDAR devices can be quickly activated and used by a single person. This makes them ideal for time-sensitive scenarios like emergency inspections. Working Around Legal or Safety Restrictions – In areas with flight restrictions or safety concerns—such as crowded public spaces—handheld LiDAR provides a compliant and risk-free alternative to drones. Discover even more information at handheld lidar scanner.
Foxtech Robotics’ robotic dexterous hands are engineered for precise, flexible manipulation and advanced robotic tasks. Powered by AI-driven control and high-performance actuators, these hands replicate human dexterity and are ideal for robotic manipulation, prosthetics, and automation. With bio-inspired designs and exceptional flexibility, our robotic hands are a key innovation in advancing human-robot interaction and enhancing the capabilities of humanoid robots and autonomous systems. Foxtech Robotics’ joint motors are precision-engineered actuators designed to provide smooth, reliable movement in various robotic applications. Whether for humanoid robots, robotic exoskeletons, or automated systems, our high-performance motors deliver exceptional motion control and efficiency. Powered by AI-driven technology and advanced servo systems, these motors enhance the flexibility and precision of robotic joints, making them ideal for research, development, and complex robotic tasks.
With the rapid development of 3D scanning technology, efficient and precise spatial data acquisition has become a key focus across industries. The SLAM200 handheld LiDAR scanner, featuring both aerial and handheld modes, offers an innovative solution for various fields such as construction, surveying, and emergency response. Dual Mode: Aerial + Handheld – A Perfect Balance of Flexibility and Professionalism – The SLAM200 breaks the limitation of traditional scanners restricted to a “single form” by adopting a modular design concept. It allows for easy switching between handheld, backpack-mounted, static station, extension rod, vehicle-mounted, and drone-mounted applications. With this design, users can fulfill requirements across indoor to outdoor, ground to aerial, narrow to open spaces—all with a single device.
Let’s look at how companies are actually using handheld lidar scanners to improve their operations. These stories show how lidar can make a tangible difference in various industries. Imagine a large-scale construction project. Using handheld lidar, the project managers can track progress daily, identifying any deviations from the plan immediately. This allows them to address issues proactively, preventing costly delays. Or consider a film production company using lidar to create realistic 3D models of locations for special effects. This saves time and money compared to traditional methods. Here are a few more examples: Archaeology: Researchers use lidar to map ancient sites and uncover hidden structures, providing valuable insights into past civilizations. Mining: Companies use lidar to monitor stockpile volumes, optimize blasting operations, and improve mine safety. Real Estate: Agents use lidar to create immersive virtual tours of properties, giving potential buyers a realistic view from anywhere in the world. Forensics: Investigators use lidar to document crime scenes quickly and accurately, capturing every detail for analysis. See more information at foxtechrobotics.com.
Since the start of the year, the global competition in humanoid robotics has intensified. Videos showcasing robots dancing, flipping, and running have flooded social media, captivating audiences worldwide. While these feats highlight impressive technological breakthroughs, the true value of humanoid robots lies beyond entertainment. The Global Boom in Humanoid Robotics – Some argue that robots are now living the ideal lives of humans—dancing and running while we remain at work. However, the real question is: how close are we to seeing these robots solving practical challenges in industries?
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.