Quality slam scanner factory: 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. Find extra details on robot joint manufacturer.
Foxtech Robotics’ bionic robotics systems combine bio-inspired technology with advanced robotic solutions to create highly functional, autonomous robots. These systems, powered by AI control, feature precision actuators and dexterous robotic components like hands and arms, making them ideal for applications in research, prosthetics, medical rehabilitation, and automation. Our innovative solutions push the boundaries of robotic capabilities, enhancing flexibility, accuracy, and human-robot interaction. Our bionic robots integrate AI-driven control, dexterous hand technology, and high-performance actuators to achieve lifelike movement and intelligent interaction. Designed for research, medical rehabilitation, and automation, these humanoid and bio-inspired robots offer precise control and exceptional flexibility, driving advancements in intelligent robotics technology.
Handheld Mode: Lightweight (only 1.9kg including base and battery) with ergonomic design, supports one-hand operation, suitable for detailed tasks like facade surveying, underground garages, and cultural relic digitization. Equipped with two 12MP panoramic cameras, it synchronously captures high-precision colored point clouds and real texture data to generate centimeter-level accurate 3D models. Aerial Mode: Quickly connects to drones via quick-release interface and uses the drone’s power supply system, reducing payload weight. The main unit weighs only 1.4kg, equipped with two 12MP panoramic cameras, supports 300m ranging, and offers 360° full-range scanning. Maximum flight altitude reaches 120m. Application Scenarios: From Construction Surveying to Emergency Response – The dual-mode design of the SLAM200 demonstrates unique advantages across multiple fields.
Improved Data Accuracy And Detail – Garbage in, garbage out. That’s the saying, right? With handheld lidar scanners, you get incredibly accurate and detailed data. These scanners capture millions of data points, creating a precise 3D representation of the environment. This level of detail is simply unachievable with traditional methods. Think about the implications for your projects. Imagine you’re an architect designing a renovation. With lidar data, you have an exact model of the existing structure. This allows you to create designs that fit perfectly, reducing the risk of costly errors and rework. Or consider a forensic scientist documenting a crime scene. The detailed lidar data captures every detail, providing invaluable evidence. Discover even more information on foxtechrobotics.com.
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.