At the same time, the government has also issued related planning policies, focusing on promoting the development of robotics and unmanned industries. In this context, as one of the key components, laser pointer radar has quickly become the next high ground for global technology companies to compete for. In principle, Lidar works by transmitting a detection signal (laser beam) to a target.
Then the received signal (target echo) reflected from the target is compared with the transmitted signal, and after proper processing, the relevant information of the target can be obtained, such as the target distance, orientation, height, speed, and even shape parameters. For robots, lidar is equivalent to the “eye” and its role is crucial.
It can be said that if there is no lidar, the robot will not be able to sense the surrounding environment and will not be able to respond to environmental changes. Based on its advantages in positioning, detecting, identifying, and tracking targets, laser pointer radars are widely used in intelligent robots, drones, unmanned driving, intelligent storage and logistics, and intelligent security. Analysis of the status quo of the lidar industry.