In modern industrial settings, UAVs rely on advanced sensing technologies to navigate complex environments safely and efficiently. Benewake provides solutions that meet these operational demands by integrating high-quality micro lidar systems into industrial applications. These devices enable precise distance measurement and obstacle detection, which is essential for automated workflows in challenging conditions. By using micro lidar, Benewake ensures drones and autonomous vehicles can maintain stability and accuracy even in harsh or unpredictable environments. This level of precision supports a variety of industrial tasks where reliability is critical.
Enhancing Operational Accuracy with Micro Lidar
Precision is essential for UAVs performing industrial operations such as mapping, inspection, and logistics. The micro lidar devices from Benewake offer accurate altitude and distance sensing, which helps drones detect obstacles and navigate safely. Operators benefit from consistent and reliable data, enabling better control over autonomous vehicles. By integrating micro lidar into their systems, Benewake allows industrial UAVs to perform complex tasks with improved efficiency and reduced risk. These sensors are particularly useful in environments like construction sites, mining areas, and industrial facilities, where precise measurements are critical to safety and workflow continuity.
Integration and Versatility in Industrial Applications
Benewake’s micro lidar systems are designed for easy integration into various UAV and autonomous vehicle platforms. Their compact form factor and robust performance allow seamless deployment without impacting vehicle operations. Among these, the TFS20-L Miniaturized Single-Point LiDAR Module stands out for its versatility and precision. This fully integrated single-channel dToF ranging mini-module features a highly sensitive infrared-enhanced SPAD sensor with a range of up to 20 meters. Utilizing a histogram statistical algorithm and fast TDC architecture, it delivers accurate distance measurements with strong sunlight resistance of 15 meters at 100 KLux and includes a reflectivity correction feature. These capabilities enable continuous and reliable data collection, supporting industrial operators in automating workflows, enhancing navigation, and maintaining operational safety. With compact yet powerful modules like the TFS20-L, Benewake’s lidar solutions provide adaptability across diverse operational scenarios, making them ideal for UAVs and autonomous systems operating in high-density or hazardous environments.
Conclusion
Adopting micro lidar from Benewake enables industrial UAVs and autonomous vehicles to achieve improved navigation, safety, and operational efficiency. These advanced sensors provide reliable measurements that support critical workflows in demanding industrial settings. By leveraging Benewake’s micro lidar technology, operators can optimize automation processes while ensuring consistent performance and safety. This commitment to precision and reliability makes Benewake a valuable partner in industrial UAV operations.
