Force Sensorless Hybrid Position/Force Control with Equivalent Mass Matrices Switching for Decoupled Rubbing Motion

Shimamoto, Keita; Murakami, Toshiyuki

doi:10.1541/ieejjia.22004247

Cited by 4 publications

References 23 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

A Six‐Axis Asymmetric Parallel Manipulator Co‐Driven by Direct‐Drive and Geared Motors for Enhanced Force‐Sensing Capability

Wu,

Wang

2024

IEEJ Transactions Elec Engng

View full text Add to dashboard Cite

This article introduces a novel six‐axis parallel manipulator co‐driven by motors with and without geared reducers. The design leverages the high stiffness provided by the geared motors and the high force‐sensing capability of the direct drives. When the geared motors move synchronously with their direct‐drive counterparts, the manipulator mimics a Delta robot's spatial translation, while the direct drives double as high‐performance force sensors. An asymmetric design of the manipulator is proposed to allocate a larger portion of torque to the geared motors, raising the overall stiffness of the mechanism. Relations between the external force to the driving torque are derived and the torque redistribution effect of the asymmetric design is illustrated numerically. Experimental results on prototypes of both the symmetric design and the asymmetric design show that direct drives consistently exhibit much higher linearity in the force‐to‐torque relationship compared to the geared drives, and also confirm that asymmetric design alleviates the torque burden on the direct drives. © 2024 Institute of Electrical Engineers of Japan and Wiley Periodicals LLC.

show abstract

A Six‐Axis Asymmetric Parallel Manipulator Co‐Driven by Direct‐Drive and Geared Motors for Enhanced Force‐Sensing Capability

Wu,

Wang

2024

IEEJ Transactions Elec Engng

View full text Add to dashboard Cite

show abstract

High Precision Control for Twin-Drive System Based on Mode Decoupling with Virtual Viscosity: Equivalent Controller Transform for Machine Tool

Fujimoto,

Isaoka

et al. 2024

2024 IEEE 18th International Conference on Advanced Motion Control (AMC)

View full text Add to dashboard Cite

Position-and-Force-Sensorless Control Considering Equivalent Mass Matrix and Cross-Coupling Factors

Shimamoto,

Murakami

2023

IECON 2023- 49th Annual Conference of the IEEE Industrial Electronics Society

View full text Add to dashboard Cite

Force Sensorless Hybrid Position/Force Control with Equivalent Mass Matrices Switching for Decoupled Rubbing Motion

Cited by 4 publications

References 23 publications

A Six‐Axis Asymmetric Parallel Manipulator Co‐Driven by Direct‐Drive and Geared Motors for Enhanced Force‐Sensing Capability

A Six‐Axis Asymmetric Parallel Manipulator Co‐Driven by Direct‐Drive and Geared Motors for Enhanced Force‐Sensing Capability

High Precision Control for Twin-Drive System Based on Mode Decoupling with Virtual Viscosity: Equivalent Controller Transform for Machine Tool

Position-and-Force-Sensorless Control Considering Equivalent Mass Matrix and Cross-Coupling Factors

Contact Info

Product

Resources

About