Sensorless Based Gravity Torque Estimation and Friction Compensation for Surgical Robotic System
Branesh M. Pillai, Dileep Sivaraman, Songpol Ongwattanakul, Jackrit Suthakorn
- Year
- 2022
- Citations
- 4
Abstract
This article intends to provide content that is both basic and elementary, but at the same time discusses how solving difficult challenges when estimating the actual force in real-time teleoperation using a small-size DC motor as the end effector/ gripper of the surgical robot. The end-effector of the surgical robot, where the surgical tools have been attached, requires high-end precision. Most commercial surgical robotic systems calculate the real-time force by using traditional force sensors which encounters hindrance like lack of expected response (advance control), limited bandwidth, and requirement of force for its own operation. The paper introduces a Disturbance observer (DOB) based Reaction Torque observer (RTOB) as the sensor for the real-time gravity torque sensing in biomedical applications, with a focus on surgical robots. In order to enable both professional engineers and students with a limited understanding of control to use the article, mathematical complications are kept to a minimum.
Keywords
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