Repetitive Control Scheme of Robotic Manipulators Based on Improved B-Spline Function

, , , , &
Complexity 2021:1-15 (2021)
  Copy   BIBTEX

Abstract

In this paper, a repetitive control scheme of a 2-DOF robotic manipulator based on the improved cubic B-spline curve is proposed. Firstly, a repetitive controller for robotic manipulator is designed, which is composed of an iterative controller and disturbance observer. Then, an improved B-spline optimization scheme is introduced to divide the task of the robotic manipulator into three intervals. A correction function is added to each interval of cubic spline interpolation. Finally, a variety of cases are designed and simulated by MATLAB. The experimental results show that, compared with the conventional B-spline, the improved B-spline has better performance in tracking accuracy and smoothness of motion trajectory. By changing the mechanism of the manipulator, the cases of different weights and lengths are designed. The experimental results in these cases show that the proposed scheme can be applied to most of the 2-DOF robotic manipulator control systems.

Categories

Keywords

Reprint years

DOI

10.1155/2021/6651105

Links

PhilArchive



    Upload a copy of this work     Papers currently archived: 93,779

External links

Setup an account with your affiliations in order to access resources via your University's proxy server

Through your library

My notes

Similar books and articles

A Compound Controller of an Aerial Manipulator Based on Maxout Fuzzy Neural Network.Xinchen Qi, Jianwei Wu & Jiansheng Pan - 2020 - Complexity 2020:1-10.
Disturbance-Observer-Based Fuzzy Control for a Robot Manipulator Using an EMG-Driven Neuromusculoskeletal Model.Longbin Zhang, Wen Qi, Yingbai Hu & Yue Chen - 2020 - Complexity 2020:1-10.
Performance Investigation of a Two Link Manipulator Stability in the Presence of Torque Disturbance using Optimal Sliding Mode Controller.Mustefa Jibril, Messay Tadese & Reta Degefa - 2020 - Preprints 2020 (10):10.
Adaptive Neural Tracking Control for a Two-Joint Robotic Manipulator with Unknown Time-Varying Delays.Jiayao Wang & Yang Cui - 2022 - Complexity 2022:1-12.
Virtual Submerged Floating Operational System for Robotic Manipulation.Qin Zhang, Jialei Zhang, Ahmed Chemori & Xianbo Xiang - 2018 - Complexity 2018:1-18.
Neural Learning Control of Flexible Joint Manipulator with Predefined Tracking Performance and Application to Baxter Robot.Min Wang, Huiping Ye & Zhiguang Chen - 2017 - Complexity:1-14.
Performance Investigation of a Two Link Manipulator Stability in the Presence of Torque Disturbance using Optimal Sliding Mode Controller.Mustefa Jibril, Mesay Tadesse & Reta Degefa - 2020 - Journal of Engineering and Applied Sciences 15 (24):3788-3792.
Position and Speed Control of 2 DOF Industrial Robotic Arm using Robust Controllers.Mustefa Jibril, Messay Tadese & Reta Degefa - 2020 - Scienceopen Journal 2020 (10):8.
Human-robot collaboration for surface treatment tasks.Luis Gracia, J. Ernesto Solanes, Pau Muñoz-Benavent, Jaime Valls Miro, Carlos Perez-Vidal & Josep Tornero - 2019 - Interaction Studies 20 (1):148-184.
Human-robot collaboration for surface treatment tasks.Luis Gracia, J. Ernesto Solanes, Pau Muñoz-Benavent, Jaime Valls Miro, Carlos Perez-Vidal & Josep Tornero - 2019 - Interaction Studies 20 (1):148-184.

Analytics

Added to PP
2021-04-18

Downloads
7 (#1,403,235)

6 months
4 (#1,004,582)

Historical graph of downloads
How can I increase my downloads?

Author Profiles

X. Wang
Dazhi Wang
University of Michigan, Ann Arbor

Citations of this work

No citations found.

Add more citations

References found in this work

Add more references