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Article Dans Une Revue IEEE Transactions on Haptics (ToH) Année : 2024

The high/low frequency balance drives tactile perception of noisy vibrations

Résumé

Noisy vibrotactile signals transmitted during tactile explorations of an object provide precious information on the nature of its surface. Understanding the link between signal properties and how they are interpreted by the tactile sensory system remains challenging. In this paper, we investigated human perception of broadband, stationary vibrations recorded during exploration of textures and reproduced using a vibrotactile actuator. Since intensity is a well-established perceptual attribute, we here focused on the relevance of the spectral content. The stimuli were first equalized in perceived intensity and subsequently used to identify the most salient spectral features using dissimilarity estimations between pairs of successive vibration. Based on dimensionally reduced spectral representations, models of dissimilarity ratings showed that the balance between low and high frequencies was the most important cue. Formal validation of this result was achieved through a Mushra experiment, in which participants assessed the fidelity of resynthesized vibrations with various distorted frequency balances. These findings offer valuable insights into human vibrotactile perception and establish a computational framework for analyzing vibrations as humans do. Moreover, they pave the way for signal synthesis and compression based on sparse representations, holding significance
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Dates et versions

hal-04308438 , version 1 (27-11-2023)
hal-04308438 , version 2 (06-03-2024)

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Corentin Bernard, Etienne Thoret, Nicolas Huloux, Sølvi Ystad. The high/low frequency balance drives tactile perception of noisy vibrations. IEEE Transactions on Haptics (ToH), inPress. ⟨hal-04308438v2⟩
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