Tactile rendering of textures by an Electro-Active Polymer piezoelectric device: mimicking Friction-Induced Vibrations
Résumé
In order to mimic Friction-Induced Vibrations (FIV) and render the perception of textures, a
tactile device, named PIEZOTACT, has been developed by a thin, lightweight and flexible
Electro-Active Polymer (EAP) piezoelectric actuator. The presented signal processing
strategy, exploiting the Transfer Function of the electro-mechanical device, allowed for
mimicking and accurately reproducing the FIV stimuli, measured when touching real
textures. The correct FIV reproduction, by the developed device, has been verified by
comparing the spectra of the measured signals when touching real surfaces and the ones
reproduced on the fingertip by the PIEZOTACT device. A pilot discrimination campaign,
performed on a single subject, highlighted the capabilities of the device, being the subject
able to discriminate the simulated textures with a low number of mistakes. Moreover, the
errors in discrimination were consistent with the ones occurred when discriminating the
corresponding real surfaces. The spectra of the induced vibrations (tactile stimuli) allowed
as well for explaining the difficulties to discriminate certain textures.