Publications
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
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Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
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Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
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MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
-
MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.
-
MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventions
•
Read more →: MRI-compatible and sensorless haptic feedback for cable-driven medical robotics to perform teleoperated needle-based interventionsCONCLUSION: The presented SHF of the µRIGS system introduced a novel MR-compatible technique to bridge the gap between medical robotics and interaction during real-time needle-based interventions.