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An Acceleration-Level Data-Driven Repetitive Motion Planning Scheme for Kinematic Control of Robots With Unknown Structure

Zhengtai Xie, Long Jin, Xin Luo, Bin Hu, Shuai Li

2021IEEE Transactions on Systems Man and Cybernetics Systems58 citationsDOI

Abstract

It is generally considered that controlling a robot precisely becomes tough on the condition of unknown structure information. Applying a data-driven approach to the robot control with the unknown structure implies a novel feasible research direction. Therefore, in this article, as a combination of the structural learning and robot control, an acceleration-level data-driven repetitive motion planning (DDRMP) scheme is proposed with the corresponding recurrent neural network (RNN) constructed. Then, theoretical analyses on the learning and control abilities are provided. Moreover, simulative experiments on employing the acceleration-level DDRMP scheme as well as the corresponding RNN to control a Sawyer robot and a Baxter robot with unknown structure information are performed. Accordingly, simulation results validate the feasibility of the proposed method and comparisons among the existing repetitive motion planning (RMP) schemes indicate the superiority of the proposed method. This work offers sufficient theoretical and simulative solutions for the acceleration-level redundancy problem of redundant robots with unknown structure and joint limits considered.

Topics & Concepts

AccelerationRedundancy (engineering)KinematicsRobotComputer scienceControl theory (sociology)Scheme (mathematics)Motion controlMotion planningRecurrent neural networkMotion (physics)Artificial neural networkArtificial intelligenceControl (management)Control engineeringEngineeringMathematicsClassical mechanicsPhysicsMathematical analysisOperating systemRobotic Mechanisms and DynamicsIterative Learning Control SystemsPiezoelectric Actuators and Control
An Acceleration-Level Data-Driven Repetitive Motion Planning Scheme for Kinematic Control of Robots With Unknown Structure | Litcius