MRI/fMRI-compatible robotic system with force feedback for interaction with human motion

This paper presents a robotic system that is compatible with anatomical magnetic resonance imaging (MRI) as well as with the more sensitive functional MRI (fMRI), and can safely and smoothly interact with human motion during the imaging. The system takes advantage of the electromagnetic shield that...

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Published in	IEEE/ASME transactions on mechatronics Vol. 11; no. 2; pp. 216 - 224
Main Authors	Gassert, R., Moser, R., Burdet, E., Bleuler, H.
Format	Journal Article
Language	English
Published	New York IEEE 01.04.2006 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Control systems Devices Electromagnetic forces Electromagnetic shielding Feedback Force feedback Force measurement Force sensors funtional MRI (fMRI) haptic interface Human motion Human robot interaction Imaging Magnetic resonance imaging magnetic resonance imaging (MRI) Mechatronics MR-compatible sensors and actuators neuroscience NMR Nuclear magnetic resonance Optical imaging Optical scanners Robot sensing systems Robotics Robots Shields
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Abstract	This paper presents a robotic system that is compatible with anatomical magnetic resonance imaging (MRI) as well as with the more sensitive functional MRI (fMRI), and can safely and smoothly interact with human motion during the imaging. The system takes advantage of the electromagnetic shield that encloses the MR room by placing the interfering or sensitive components outside the shield, in the control room. This eliminates the need for extensive compatibility testing before each use. The concept is based on a conventional actuator placed outside the scanner room and a hydrostatic connection to transmit force and motion to an MR-compatible slave placed next to or inside the MR scanner. A force sensor, based on reflected light intensity measurement over optical fibers, measures interaction forces with the human subject. A robotic interface for wrist motion demonstrates the MR compatibility of this concept and the possibility to interact with various dynamic environments during functional imaging. This technology provides a basis for applications such as assistive devices for interventional MRI and haptic interfaces for neuroscience investigations.
AbstractList	This paper presents a robotic system that is compatible with anatomical magnetic resonance imaging (MRI) as well as with the more sensitive functional MRI (fMRI), and can safely and smoothly interact with human motion during the imaging. The system takes advantage of the electromagnetic shield that encloses the MR room by placing the interfering or sensitive components outside the shield, in the control room. This eliminates the need for extensive compatibility testing before each use. The concept is based on a conventional actuator placed outside the scanner room and a hydrostatic connection to transmit force and motion to an MR-compatible slave placed next to or inside the MR scanner. A force sensor, based on reflected light intensity measurement over optical fibers, measures interaction forces with the human subject. A robotic interface for wrist motion demonstrates the MR compatibility of this concept and the possibility to interact with various dynamic environments during functional imaging. This technology provides a basis for applications such as assistive devices for interventional MRI and haptic interfaces for neuroscience investigations. A force sensor, based on reflected light intensity measurement over optical fibers, measures interaction forces with the human subject.
Author	Bleuler, H. Burdet, E. Gassert, R. Moser, R.
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SubjectTerms	Control systems Devices Electromagnetic forces Electromagnetic shielding Feedback Force feedback Force measurement Force sensors funtional MRI (fMRI) haptic interface Human motion Human robot interaction Imaging Magnetic resonance imaging magnetic resonance imaging (MRI) Mechatronics MR-compatible sensors and actuators neuroscience NMR Nuclear magnetic resonance Optical imaging Optical scanners Robot sensing systems Robotics Robots Shields
Title	MRI/fMRI-compatible robotic system with force feedback for interaction with human motion
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