Home /Research /Path Planning for Continuum Arms in Dynamic Environments
HRI

Path Planning for Continuum Arms in Dynamic Environments

Brandon H. Meng, Dimuthu D. K. Arachchige, Isuru S. Godage, Iyad Kanj

Year
2024
Citations
2

Abstract

Multisection continuum arms are bio-inspired manipulators that combine compliance, payload, dexterity, and safety to serve as co-robots in human-robot collaborative domains. Their hyper redundancy and complex kinematics, however, pose many challenges when performing path planning, especially in dynamic environments. In this paper, we present a W-Space based Rapidly Exploring Random Trees * path planner for multisection continuum arm robots in dynamic environments. The proposed planner improves the existing state-of-art planners in terms of computation time and the success rate, while removing the need for offline computation. On average, the computation time of our approach is below 2 seconds, and its average success rate is around 70 %. The computation time of the proposed planner significantly improves that of the state-of-the-art planner by roughly a factor of 20, making the former suitable for real-time applications. Moreover, for application domains where the obstacle motion is not very predictable (e.g., human obstacles), the proposed planner significantly improves the success rate of state-of-the-art planners by nearly 50 %. Lastly, we demonstrate the feasibility of several generated trajectories by replicating the motion on a physical prototype arm.

Keywords

Motion planningPlannerComputationRobotObstacleComputer scienceKinematicsRedundancy (engineering)Path (computing)Payload (computing)

Related papers

Browse all HRI papers