Rahul Kumar Ray scite author profile

Understanding the response of Pacinian Corpuscle (PC) for an electrical stimulus through a computational model can give better insight into the physiology. Although there are simpler models available in the literature, models simulating spike-rate and threshold characterizations are still missing. These characterizations may lead to the development of tactile displays combining both electrical and mechanical stimuli, especially high-frequency vibrations. We developed a PC model with equivalent circuits of the electrode-skin interface, PC's neurite, and the first Ranvier node. The input electrical stimulus is a current pulse with varying amplitude (0 to 2 mA) and varying frequency (5 Hz to 1600 Hz). The model is characterized initially for the frequency response, and then the spike-rate and threshold characteristics were simulated. The spike-rate traces for electrical stimuli show the phase-locking phenomenon similar to the mechanical stimuli responses of PC, however the plateau lengths are larger for the spike-rate traces with electrical stimuli compared to that of the mechanical stimuli. This is reflected as a large difference in the threshold characteristics for one and two impulsesper-cycle. Moreover, threshold characteristics are little influenced by the neural noise. This model can be extended to study the combination of electrical and mechanical stimuli.

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Reduction of Electrotactile Perception Threshold Using Background Thermal Stimulation

Ray

Manivannan

2021

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Reduction of electrotactile perception threshold using subthreshold vibrotactile stimuli

2021

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Effect of Subthreshold Vibration on the Perception of Electrovibration

Balasubramanian

Ray

Manivannan

2022

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Rahul Kumar Ray

Power Law Based “Out of Body” Tactile Funneling for Mobile Haptics

Computational Model of a Pacinian Corpuscle for an Electrical Stimulus: Spike-Rate and Threshold Characteristics

Reduction of Electrotactile Perception Threshold Using Background Thermal Stimulation

Reduction of electrotactile perception threshold using subthreshold vibrotactile stimuli

Effect of Subthreshold Vibration on the Perception of Electrovibration

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