The AMRs require incredibly sophisticated sensors to be fitted in their unit in order for them to navigate so well. Although several environmental sensors can be used, laser scanners and LiDAR sensors are most frequently employed. LiDAR scanners operate by sending out light pulses that strike various surfaces and bounce the light back to the sensor, where it is once more detected. The length of time it took for the light to be sent back to the sensor will then be determined by the AMR's processing system. This enables the LiDAR sensors to map the separation between certain objects and gives the AMR robot information about the areas it can and cannot travel in.

can not stop or turn at the ramp, step and gap, but can only pass quickly perpendicular to the ramp, step and gap.
2. positioning accuracy usually refers to the repetition accuracy of the robot navigating to the target site. When the
environment scanned by the robot's lidar is relatively stable, the repetition accuracy of the robot navigating from a fixed
direction to the target site can reach the expected value. When the robot marsh virtual path is running, it will try to fit the path, but the repeatability is not guaranteed. That is to say, the robot can ensure the accuracy of the arrival point, but not the path fitting accuracy. The minimum station
spacing supported 1CM, Therefore, the robot cannot be used as a linear guide rail.
3. basic functions include map editing, model editing, positioning module, navigation module, basic motion model
(differential), API interface, etc.
4. it shall be used with the qualified automatic charging pile
5. AMR is only designed for indoor transportation and is not recommended for outdoor environment.








