Add to ORKGWe studied on the feasibility of focused ultrasound for tactile feeling display. Our experiments showed that focused ultrasound at 1 MHz and 5 MHz effected our somatic sensation both by its radiation pressure and by direct stimulation to the nerve structures. The radiation pressure force generated by our apparatus was 0.23 gf/cm2 per 1-watt power consumption and evoked tactile feeling stably, while direct nerve stimulation could not induce stable tactile feeling. Key words: tactile feeling display, focused ultrasound, radiation pressure, nerve stimulation 1
Non-invasive brain stimulation techniques allow for excitation or inhibition of neural activity via ...
Tactile stimulation of the skin excites cutaneous waves that travel great distances, but the implica...
An ultrasound method based on radiation force is presented for imaging the acoustic response of a ma...
Ultrasound application to neural tissues modifies their activity, and it is increasingly considered ...
A tactile display that provides tactile stimulation from a distance is studied. Hundreds of ultrason...
The sense of touch codes the detection and properties of physical objects on the body via mechanorec...
Abstract: We designed a tactile display which produces spatio-temporal pressure patterns on a 2-D pl...
In this paper, we propose a new tactile display which produces spatio-temporal stress patterns on a ...
Background: Transcranial focused ultrasound (FUS) is gaining momentum as a novel non-invasive brain ...
Peripheral somatosensory circuits are known to respond to diverse stimulus modalities. The energy mo...
Vagus nerve stimulators currently on the market can treat epilepsy and depression. Recent clinical t...
Peripheral somatosensory circuits are known to respond to diverse stimulus modalities. The energy mo...
<p>(<b>A</b>) Example of experimental setup implemented to achieve peripheral ultrasonic stimulation...
Objectives: Focused ultrasound (FUS) techniques enable the delivery of acoustic pressure waves to a ...
We present a method for creating three-dimensional haptic shapes in mid-air using focused ultrasound...
Non-invasive brain stimulation techniques allow for excitation or inhibition of neural activity via ...
Tactile stimulation of the skin excites cutaneous waves that travel great distances, but the implica...
An ultrasound method based on radiation force is presented for imaging the acoustic response of a ma...
Ultrasound application to neural tissues modifies their activity, and it is increasingly considered ...
A tactile display that provides tactile stimulation from a distance is studied. Hundreds of ultrason...
The sense of touch codes the detection and properties of physical objects on the body via mechanorec...
Abstract: We designed a tactile display which produces spatio-temporal pressure patterns on a 2-D pl...
In this paper, we propose a new tactile display which produces spatio-temporal stress patterns on a ...
Background: Transcranial focused ultrasound (FUS) is gaining momentum as a novel non-invasive brain ...
Peripheral somatosensory circuits are known to respond to diverse stimulus modalities. The energy mo...
Vagus nerve stimulators currently on the market can treat epilepsy and depression. Recent clinical t...
Peripheral somatosensory circuits are known to respond to diverse stimulus modalities. The energy mo...
<p>(<b>A</b>) Example of experimental setup implemented to achieve peripheral ultrasonic stimulation...
Objectives: Focused ultrasound (FUS) techniques enable the delivery of acoustic pressure waves to a ...
We present a method for creating three-dimensional haptic shapes in mid-air using focused ultrasound...
Non-invasive brain stimulation techniques allow for excitation or inhibition of neural activity via ...
Tactile stimulation of the skin excites cutaneous waves that travel great distances, but the implica...
An ultrasound method based on radiation force is presented for imaging the acoustic response of a ma...