1. The Algorithm of Multiple Obstacle Avoidance Tasks for Dual-Arm Robots
- Author
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Quancheng Pu, Xiangrong Xu, Hui Zhang, Qiqi Li, Aleksandar Rodic, Petar B. Petrovich, Haiyan Wang, Shanshan Xu, and Zhixiong Wang
- Subjects
Dual-arm robots ,pseudo-distance ,self-obstacle avoidance ,terminal obstacle avoidance ,zero-space obstacle avoidance ,simulations ,Electrical engineering. Electronics. Nuclear engineering ,TK1-9971 - Abstract
To achieve multiple obstacle avoidance tasks consisting of zero-space obstacle avoidance and terminal obstacle avoidance with self-avoidance permission, we propose an algorithm for multiple obstacle avoidance tasks for dual-arm robots. First, we design a self-obstacle avoidance gradient optimization function to implement the self-obstacle avoidance task between the two arms of dual-arm robots by using the pseudo-distance as the basis for the collision judgment. Second, the terminal obstacle avoidance task for dual-arm robots is implemented by applying an adaptive terminal obstacle avoidance velocity. Third, a zero-space obstacle avoidance task for dual-arm robots is realized using an adaptive virtual repulsion force. Finally, a dual-arm robot consisting of two 6-DOF Jaco2 manipulators is simulated in a Matlab environment to verify the obstacle avoidance algorithm of dual-arm robots. The simulation results show that the algorithm proposed in this paper can complete the multi-obstacle avoidance tasks of terminal obstacle avoidance and zero-space obstacle avoidance simultaneously with the premise of realizing the self-obstacle avoidance of dual-arm robots, and has a minor terminal trajectory error, which proves that the algorithm is in the feasibility of completing terminal obstacle avoidance and zero-space obstacle avoidance with the premise of realizing dual-arm robots self-obstacle avoidance.
- Published
- 2023
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