Abstract
Climbing stairs is one of the important functions of the articulated-tracked robot obstacle, the robot can be improved through the complex terrain capability. The robot is conducted action planning for climbing stair. Action planning of the robot, speed and acceleration of position change of the robot's center of mass, moment of inertia of driving wheels and arm wheels for influence of the robot dynamic feature are considered, complex dynamic models of the robot to climb stairs are built. The relationships of driving wheel torque, arm wheel torque and its different speed, acceleration, staircases height, angle of the robot and the stairs are analyzed by simulations, maximum driving torques of driving wheel and arm wheel are obtained in the process of robot climbing stairs, a theoretical basis for articulated-tracked robot selecting the appropriate driving torque and motion control are provided.
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