Analysis and control for a new reconfigurable parallel mechanism-Reference-Cited by-同舟云学术

Analysis and control for a new reconfigurable parallel mechanism

Published:2020-09-01 Issue:5 Volume:17 Page:172988142093132
ISSN:1729-8814
Container-title:International Journal of Advanced Robotic Systems
language:en
Short-container-title:International Journal of Advanced Robotic Systems

Author:

Huang Guanyu¹²^ORCID,Zhang Dan²,Tang Hongyan²,Kong Lingyu¹,Song Sumian¹

Affiliation:

1. Zhejiang Lab, Hangzhou, People’s Republic of China

2. Department of Mechanical Engineering, Lassonde School of Engineering, York University, Toronto, ON, Canada

Abstract

This article proposes a new reconfigurable parallel mechanism using a spatial overconstrained platform. This proposed mechanism can be used as a machine tool. The mobility is analyzed by Screw Theory. The inverse kinematic model is established by applying the closed-loop equation. Next, the dynamic model of the presented mechanism is established by Lagrange formulation. To control the presented mechanism, some controllers have been used. Based on this dynamic model, the fuzzy-proportion integration differentiation (PID) controller is designed to track the trajectory of the end effector. For each limb, a sliding mode controller is applied to track the position and velocity of the slider. Finally, some simulations using ADAMS and MATLAB are proposed to verify the effectiveness and stability of these controllers.

Funder

York Research Chairs program

Publisher

SAGE Publications

Subject

Artificial Intelligence,Computer Science Applications,Software

Link

http://journals.sagepub.com/doi/pdf/10.1177/1729881420931322

Reference48 articles.

1. A novel grid-based reconfigurable spatial parallel mechanism with large workspace

2. A New Family of Symmetrical 2T2R Parallel Mechanisms Without Parasitic Motion

3. Design and analysis of a reconfigurable parallel mechanism for multidirectional additive manufacturing

4. A class of novel 2T2R and 3T2R parallel mechanisms with large decoupled output rotational angles

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