Zhan Fan Quek scite author profile

During tool-mediated interaction with everyday objects, we experience kinesthetic forces and tactile sensations in the form of vibration and skin deformation at the fingerpad. Fingerpad skin deformation is caused by forces applied tangentially and normally to the fingerpad skin, resulting in tangential and normal skin displacement. We designed a device to convey 3-degree-of-freedom (DoF) force information to the user via skin deformation, and conducted two experiments to determine the devices effectiveness for force-feedback substitution and augmentation. For sensory substitution, participants used 1-DoF and 3-DoF skin deformation feedback to locate a feature in a 3-DoF virtual environment. Participants showed improved precision and shorter completion time when using 3-DoF compared to 1-DoF skin deformation feedback. For sensory augmentation, participants traced a path in space from an initial to a target location, while under guidance from force and/or skin deformation feedback. When force feedback was augmented with skin deformation, participants reduced their path-following error over the cases when force or skin deformation feedback are used separately. We conclude that 3-DoF skin deformation feedback is effective in substituting or augmenting force feedback. Such substitution or augmentation could be used when force feedback is unattainable or attenuated due to device limitations or system instability.

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Design of an Optically Controlled MR-Compatible Active Needle

Ryu

Quek

Koh

et al. 2015

IEEE Trans. Robot.

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An active needle is proposed for the development of magnetic resonance imaging (MRI)-guided percutaneous procedures. The needle uses a low-transition-temperature shape memory alloy (LT SMA) wire actuator to produce bending in the distal section of the needle. Actuation is achieved with internal optical heating using laser light transported via optical fibers and side coupled to the LT SMA. A prototype, with a size equivalent to a standard 16-gauge biopsy needle, exhibits significant bending, with a tip deflection of more than 14° in air and 5° in hard tissue. A single-ended optical sensor with a gold-coated tip is developed to measure the curvature independently of temperature. The experimental results in tissue phantoms show that human tissue causes fast heat dissipation from the wire actuator; however, the active needle can compensate for typical targeting errors during prostate biopsy.

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Sensory substitution via cutaneous skin stretch feedback

Schorr

Quek

Romano

et al. 2013

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Teleoperated versus open needle driving: Kinematic analysis of experienced surgeons and novice users

Nisky

Che

Quek

et al. 2015

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Zhan Fan Quek

Augmentation Of Stiffness Perception With a 1-Degree-of-Freedom Skin Stretch Device

Sensory Substitution and Augmentation Using 3-Degree-of-Freedom Skin Deformation Feedback

Design of an Optically Controlled MR-Compatible Active Needle

Sensory substitution via cutaneous skin stretch feedback

Teleoperated versus open needle driving: Kinematic analysis of experienced surgeons and novice users

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