Kinematics-based collision-free motion planning for autonomous mobile robot in dynamic environment

In indoor environment, often time there always exist moving objects such as people or other service robots. For indoor service robot, they may follow a priori to patrol or help people to delivery so that it is fundamental and essential to achieve the destination without collision. In this paper, we aim at developing the collision-free algorithm by using kinematics-based method. Based on the model developed, we propose the collision-free conditions to find out proper via-postures. While the conditions are satisfied, the relative distance between the robot and the moving obstacle will be guaranteed, the collision vanishes and via-postures are derived from the condition as well. To enhance robot collision avoidance behavior, we make efforts on the following requirements: (1) smooth collision-free paths (2) situation-dependant path selection mechanism (3) redirection to the priori to conduct the tasks continuously. The justifications and approaches used for all the requirements are stated and discussed. Simulations and experimental results are made to demonstrate the feasibility and applicability of the method.