Tactile perception by friction induced vibrations

When a finger moves to scan the surface of an object (haptic sensing), the sliding contact generates vibrations that propagate in the finger skin activating the receptors (mechanoreceptors) located in the skin, allowing the brain to identify objects and perceive information about their properties. T...

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Bibliographic Details
Published in:Tribology international 2011-09, Vol.44 (10), p.1100-1110
Main Authors: Fagiani, Ramona, Massi, Francesco, Chatelet, Eric, Berthier, Yves, Akay, Adnan
Format: Article
Language:English
Subjects:
Acoustics
Applied sciences
Biomechanics
Brain
Engineering Sciences
Exact sciences and technology
Fingers
Friction induced vibrations
Friction, wear, lubrication
Machine components
Mechanical engineering. Machine design
Mechanics
Mechanoreceptors
Physics
Roughness
Scanning
Surface chemistry
Tactile
Tactile perception
Textiles
Texture
Vibration
Vibrations
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Summary:When a finger moves to scan the surface of an object (haptic sensing), the sliding contact generates vibrations that propagate in the finger skin activating the receptors (mechanoreceptors) located in the skin, allowing the brain to identify objects and perceive information about their properties. The information about the surface of the object is transmitted through vibrations induced by friction between the skin and the object scanned by the fingertip. The mechanoreceptors transduce the stress state into electrical impulses that are conveyed to the brain. A clear understanding of the mechanisms of the tactile sensing is fundamental to numerous applications, like the development of artificial tactile sensors for intelligent prostheses or robotic assistants, and in ergonomics. While the correlation between surface roughness and tactile sensation has already been reported in literature, the vibration spectra induced by the finger-surface scanning and the consequent activation of the mechanoreceptors on the skin have received less attention. In this paper, frequency analysis of signals characterizing surface scanning is carried out to investigate the vibration spectrum measured on the finger and to highlight the changes shown in the vibration spectra as a function of characteristic contact parameters such as scanning speed, roughness and surface texture. An experimental set-up is developed to recover the vibration dynamics by detecting the contact force and the induced vibrations; the bench test has been designed to guarantee reproducibility of measurements at the low amplitude of the vibrations of interest, and to perform measurements without introducing external noise. Two different perception mechanisms, as a function of the roughness wavelength, have been pointed out. The spectrum of vibration obtained by scanning textiles has been investigated. ► The paper presents a direct approach, investigating the induced vibration spectra. ► The bench test, named TriboTouch, design and validation are presented. ► Influences of scanning speed and roughness wavelength on the vibration spectra. ► The role of fingerprints on the duplex model of tactile perception is highlighted. ► A textiles vibration spectrum is described.
ISSN:0301-679X
1879-2464
DOI:10.1016/j.triboint.2011.03.019