DocumentCode
2389498
Title
Development of a 2-DOF electrostatic haptic joystick for MRI/fMRI applications
Author
Hara, Masayuki ; Matthey, Gaëtan ; Yamamoto, Akio ; Chapuis, Dominique ; Gassert, Roger ; Bleuler, Hannes ; Higuchi, Toshiro
Author_Institution
Dept. of Precision Eng., Univ. of Tokyo, Tokyo, Japan
fYear
2009
fDate
12-17 May 2009
Firstpage
1479
Lastpage
1484
Abstract
This paper describes the development of a 2-DOF electrostatic haptic joystick designed for neuroscience studies in an MRI/fMRI. The joystick is fabricated using non-magnetic materials and actuated by two high-power electrostatic motor units which produce various force fields in the horizontal plane. The electrostatic motor is a synchronous drive and thus the positioning of the joystick is achieved in an open-loop control. As for force sensing, a 2-DOF force sensor is developed using non-magnetic materials and optical fibers so as to measure interaction force with a user; hence, the haptic rendering is based on the admittance control scheme that respects the rule of force-in and position-out. The operation of both the actuators and force sensor respects non-magnetic principles. Thus, the haptic joystick into which these components are integrated is expected to have high MR compatibility, although the evaluation of the MR compatibility is beyond the scope of this paper. In this paper, the device performance is evaluated in the normal environment, which verifies the operation of the unique electrostatic haptic device.
Keywords
biomedical MRI; electrostatic motors; force measurement; haptic interfaces; interactive devices; medical control systems; neurophysiology; open loop systems; optical fibres; rendering (computer graphics); synchronous motor drives; 2-DOF electrostatic haptic joystick; 2-DOF force sensor; admittance control scheme; electrostatic motor units; fMRI applications; force fields; haptic rendering; interaction force measurement; neuroscience studies; nonmagnetic materials; open-loop control; optical fibers; synchronous drive; Electrostatics; Force control; Force measurement; Force sensors; Haptic interfaces; Magnetic resonance imaging; Neuroscience; Open loop systems; Optical materials; Synchronous motors;
fLanguage
English
Publisher
ieee
Conference_Titel
Robotics and Automation, 2009. ICRA '09. IEEE International Conference on
Conference_Location
Kobe
ISSN
1050-4729
Print_ISBN
978-1-4244-2788-8
Electronic_ISBN
1050-4729
Type
conf
DOI
10.1109/ROBOT.2009.5152850
Filename
5152850
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