Dynamics of fingertip contact during the onset of tangential slip. Delhaye, B.; Lefèvre, P.; Thonnard, J.; Lefevre, P.; and Thonnard, J. Journal of The Royal Society Interface, 11(100):20140698-20140698, 9, 2014.
Dynamics of fingertip contact during the onset of tangential slip [pdf]Paper  Dynamics of fingertip contact during the onset of tangential slip [link]Website  abstract   bibtex   
Through highly precise perceptual and sensorimotor activities, the human tactile system continuously acquires information about the environment. Mechanical interactions between the skin at the point of contact and a touched surface serve as the source of this tactile information. Using a dedicated custom robotic platform, we imaged skin deformation at the contact area between the finger and a flat surface during the onset of tangential sliding movements in four different directions (proximal, distal, radial and ulnar) and with varying normal force and tangential speeds. This simple tactile event evidenced complex mechanics. We observed a reduction of the contact area while increasing the tangential force and proposed to explain this phenomenon by nonlinear stiffening of the skin. The deformation's shape and amplitude were highly dependent on stimulation direction. We conclude that the complex, but highly patterned and reproducible, deformations measured in this study are a potential source of information for the central nervous system and that further mechanical measurement are needed to better understand tactile perceptual and motor performances.
@article{
 title = {Dynamics of fingertip contact during the onset of tangential slip},
 type = {article},
 year = {2014},
 identifiers = {[object Object]},
 keywords = {biomechanics,biomedical engineering},
 pages = {20140698-20140698},
 volume = {11},
 websites = {http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=4191101&tool=pmcentrez&rendertype=abstract,http://rsif.royalsocietypublishing.org/cgi/doi/10.1098/rsif.2014.0698},
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 abstract = {Through highly precise perceptual and sensorimotor activities, the human tactile system continuously acquires information about the environment. Mechanical interactions between the skin at the point of contact and a touched surface serve as the source of this tactile information. Using a dedicated custom robotic platform, we imaged skin deformation at the contact area between the finger and a flat surface during the onset of tangential sliding movements in four different directions (proximal, distal, radial and ulnar) and with varying normal force and tangential speeds. This simple tactile event evidenced complex mechanics. We observed a reduction of the contact area while increasing the tangential force and proposed to explain this phenomenon by nonlinear stiffening of the skin. The deformation's shape and amplitude were highly dependent on stimulation direction. We conclude that the complex, but highly patterned and reproducible, deformations measured in this study are a potential source of information for the central nervous system and that further mechanical measurement are needed to better understand tactile perceptual and motor performances.},
 bibtype = {article},
 author = {Delhaye, Benoit and Lefèvre, Philippe and Thonnard, Jean-Louis and Lefevre, P. and Thonnard, Jean-Louis},
 journal = {Journal of The Royal Society Interface},
 number = {100}
}
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