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Time-Optimal Asymmetric S-Curve Trajectory Planning of Redundant Manipulators under Kinematic Constraints

Tianyu Liu, Jingkai Cui, Yanhui Li, Siyuan Gao, Mingchao Zhu, Liheng Chen

2023Sensors20 citationsDOIOpen Access PDF

Abstract

This paper proposes a novel trajectory planning algorithm to design an end-effector motion profile along a specified path. An optimization model based on the whale optimization algorithm (WOA) is established for time-optimal asymmetrical S-curve velocity scheduling. Trajectories designed by end-effector limits may violate kinematic constraints due to the non-linear relationship between the operation and joint space of redundant manipulators. A constraints conversion approach is proposed to update end-effector limits. The path can be divided into segments at the minimum of the updated limitations. On each path segment, the jerk-limited S-shaped velocity profile is generated within the updated limitations. The proposed method aims to generate end-effector trajectory by kinematic constraints which are imposed on joints, resulting in efficient robot motion performance. The WOA-based asymmetrical S-curve velocity scheduling algorithm can be automatically adjusted for different path lengths and start/end velocities, allowing flexibility in finding the time-optimal solution under complex constraints. Simulations and experiments on a redundant manipulator prove the effect and superiority of the proposed method.

Topics & Concepts

KinematicsControl theory (sociology)JerkMotion planningTrajectoryPath (computing)Robot end effectorScheduling (production processes)Computer scienceMathematical optimizationFlexibility (engineering)MathematicsRobotArtificial intelligenceAccelerationControl (management)AstronomyPhysicsProgramming languageClassical mechanicsStatisticsRobotic Mechanisms and DynamicsRobotic Path Planning AlgorithmsHydraulic and Pneumatic Systems
Time-Optimal Asymmetric S-Curve Trajectory Planning of Redundant Manipulators under Kinematic Constraints | Litcius