AUTHOR=Al Ali Ahmad , Zhu Zheng H. TITLE=Reinforcement learning for path planning of free-floating space robotic manipulator with collision avoidance and observation noise JOURNAL=Frontiers in Control Engineering VOLUME=5 YEAR=2024 URL=https://www.frontiersin.org/journals/control-engineering/articles/10.3389/fcteg.2024.1394668 DOI=10.3389/fcteg.2024.1394668 ISSN=2673-6268 ABSTRACT=

This study introduces a novel approach for the path planning of a 6-degree-of-freedom free-floating space robotic manipulator, focusing on collision and obstacle avoidance through reinforcement learning. It addresses the challenges of dynamic coupling between the spacecraft and the robotic manipulator, which significantly affects control and precision in the space environment. An innovative reward function is introduced in the reinforcement learning framework to ensure accurate alignment of the manipulator’s end effector with its target, despite disturbances from the spacecraft and the need for obstacle and collision avoidance. A key feature of this study is the use of quaternions for orientation representation to avoid the singularities associated with conventional Euler angles and enhance the training process’ efficiency. Furthermore, the reward function incorporates joint velocity constraints to refine the path planning for the manipulator joints, enabling efficient obstacle and collision avoidance. Another key feature of this study is the inclusion of observation noise in the training process to enhance the robustness of the agent. Results demonstrate that the proposed reward function enables effective exploration of the action space, leading to high precision in achieving the desired objectives. The study provides a solid theoretical foundation for the application of reinforcement learning in complex free-floating space robotic operations and offers insights for future space missions.