Affiliation:
1. UPMC, Université Paris 06, Institut des Systèmes Intelligents et de Robotique, Paris, France
Abstract
Electromagnetic drives are subjected to an inherent inertia–torque tradeoff that fundamentally limits transparency: the higher the torque, the higher the inertia. We describe a dual-stage design that is not subjected to this tradeoff and that is able to approach perfect transparency for human users. It comprises a large, proximal motor and a small, distal motor to reproduce the transients. The two stages are coupled by a viscous clutch based on eddy currents that, without contact, accurately transforms slip velocity into torque. Such a system can, in general, be controlled to achieve a variety of objectives. Here, we show that an advanced, discrete-time, RST polynomial pole-placement controller can achieve near-perfect transparency. Experimental validation evaluated the human ability to detect small haptic details when using this drive and compared it with when using a conventional, single-motor interface.
Subject
Applied Mathematics,Artificial Intelligence,Electrical and Electronic Engineering,Mechanical Engineering,Modelling and Simulation,Software
Cited by
22 articles.
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1. Actuator Design;Springer Series on Touch and Haptic Systems;2022-11-06
2. A Rotary Induction Actuator for Kinesthetic and Tactile Rendering;Haptics: Science, Technology, Applications;2022
3. Transparency in Human-Machine Mutual Action;Journal of Robotics and Mechatronics;2021-10-20
4. Observer-Based Disturbance Control for Small-Scale Collaborative Robotics;2020 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS);2020-10-24
5. A review of haptic feedback in tele-operated robotic surgery;Journal of Medical Engineering & Technology;2020-06-23