Perception and action in teleoperated needle insertion

Ilana Nisky; Assaf Pressman; Carla M. Pugh; Ferdinando A. Mussa-Ivaldi; Amir Karniel

doi:https://doi.org/10.1109/TOH.2011.30

Perception and action in teleoperated needle insertion

Ilana Nisky, Assaf Pressman, Carla M. Pugh, Ferdinando A. Mussa-Ivaldi, Amir Karniel

Ben-Gurion University of the Negev

Research output: Contribution to journal › Article › peer-review

Abstract

We studied the effect of delay on perception and action in contact with a force field that emulates elastic soft tissue with a rigid nonlinear boundary. Such a field is similar to forces exerted on a needle during teleoperated needle insertion. We found that delay causes motor underestimation of the stiffness of this nonlinear soft tissue, without perceptual change. These experimental results are supported by simulation of a simplified mechanical model of the arm and neural controller, and a model for perception of stiffness, which is based on regression in the force-position space. In addition, we show that changing the gain of the teleoperation channel cancels the motor effect of delay without adding perceptual distortion. We conclude that it is possible to achieve perceptual and motor transparency in virtual one-dimensional remote needle insertion task.

Original language	American English
Article number	5871613
Pages (from-to)	155-166
Number of pages	12
Journal	IEEE Transactions on Haptics
Volume	4
Issue number	3
DOIs	https://doi.org/10.1109/TOH.2011.30
State	Published - 19 Aug 2011

Keywords

Medical simulation
perception and psychophysics
telemanipulation
transparency

All Science Journal Classification (ASJC) codes

Human-Computer Interaction
Computer Science Applications

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https://doi.org/10.1109/TOH.2011.30

Cite this

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title = "Perception and action in teleoperated needle insertion",

abstract = "We studied the effect of delay on perception and action in contact with a force field that emulates elastic soft tissue with a rigid nonlinear boundary. Such a field is similar to forces exerted on a needle during teleoperated needle insertion. We found that delay causes motor underestimation of the stiffness of this nonlinear soft tissue, without perceptual change. These experimental results are supported by simulation of a simplified mechanical model of the arm and neural controller, and a model for perception of stiffness, which is based on regression in the force-position space. In addition, we show that changing the gain of the teleoperation channel cancels the motor effect of delay without adding perceptual distortion. We conclude that it is possible to achieve perceptual and motor transparency in virtual one-dimensional remote needle insertion task.",

keywords = "Medical simulation, perception and psychophysics, telemanipulation, transparency",

author = "Ilana Nisky and Assaf Pressman and Pugh, {Carla M.} and Mussa-Ivaldi, {Ferdinando A.} and Amir Karniel",

note = "Funding Information: The authors wish to thank Annabel Sharon and Amit Milstein for their help in collecting the experimental data. This work was supported by the Binational United States Israel Science Foundation and by NINDS grants 2R01NS035673. IN is supported by the Kreitman and Clore fellowships.",

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AU - Nisky, Ilana

AU - Pressman, Assaf

AU - Pugh, Carla M.

AU - Mussa-Ivaldi, Ferdinando A.

AU - Karniel, Amir

N1 - Funding Information: The authors wish to thank Annabel Sharon and Amit Milstein for their help in collecting the experimental data. This work was supported by the Binational United States Israel Science Foundation and by NINDS grants 2R01NS035673. IN is supported by the Kreitman and Clore fellowships.

PY - 2011/8/19

Y1 - 2011/8/19

N2 - We studied the effect of delay on perception and action in contact with a force field that emulates elastic soft tissue with a rigid nonlinear boundary. Such a field is similar to forces exerted on a needle during teleoperated needle insertion. We found that delay causes motor underestimation of the stiffness of this nonlinear soft tissue, without perceptual change. These experimental results are supported by simulation of a simplified mechanical model of the arm and neural controller, and a model for perception of stiffness, which is based on regression in the force-position space. In addition, we show that changing the gain of the teleoperation channel cancels the motor effect of delay without adding perceptual distortion. We conclude that it is possible to achieve perceptual and motor transparency in virtual one-dimensional remote needle insertion task.

AB - We studied the effect of delay on perception and action in contact with a force field that emulates elastic soft tissue with a rigid nonlinear boundary. Such a field is similar to forces exerted on a needle during teleoperated needle insertion. We found that delay causes motor underestimation of the stiffness of this nonlinear soft tissue, without perceptual change. These experimental results are supported by simulation of a simplified mechanical model of the arm and neural controller, and a model for perception of stiffness, which is based on regression in the force-position space. In addition, we show that changing the gain of the teleoperation channel cancels the motor effect of delay without adding perceptual distortion. We conclude that it is possible to achieve perceptual and motor transparency in virtual one-dimensional remote needle insertion task.

KW - Medical simulation

KW - perception and psychophysics

KW - telemanipulation

KW - transparency

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JO - IEEE Transactions on Haptics

JF - IEEE Transactions on Haptics

IS - 3

M1 - 5871613

ER -

Perception and action in teleoperated needle insertion

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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