Virtual Poster Session

Welcome to the Virtual Poster Session, a new and powerful tool for networking and information exchange. Here you can share your work, search though the poster library, and start a dialogue with others in your field. Each uploaded poster that pertains to force measurement and testing can currently be used to apply for an academic travel scholarship; please see the Scholarships page for application details and deadlines.

Haptic-motor transformations for the control of fingertip distance

Conference: Society for Neuroscience
Abstract:

Dexterous manipulation relies on modulation of digit forces as a function of digit placement. However, little is known about the sense of position of the finger pads relative to each other. We quantified subjects' ability to match perceived vertical distance between the thumb and index finger pads (dy) of the right hand (“reference” hand, Rhand) using the ipsilateral or contralateral hand (“test” hand, Thand) without vision of the hands. The Rhand digits were passively placed non-collinearly (dy = ±30 mm) or collinearly (dy = 0 mm). Subjects reproduced Rhand dy by using a congruent or inverse Thand posture. We hypothesized that matching error would be greater (a) for collinear than non-collinear digits positions, (b) when Rhand and Thand postures were not congruent, and (c) when subjects reproduced dy using the contralateral hand. Subjects made greater errors when matching collinear than non-collinear dys, when the posture of Thand and Rhand were not congruent, and when Thand was the contralateral hand. Under-estimation errors were produced only for non-collinear digits positions, when the postures of Thand and Rhand were not congruent, and when Thand was the contralateral hand. These findings indicate that perceived finger pad distance is transferred across hands less accurately than when it is reproduced within the hand and reproduced less accurately when a higher-level processing of the somatosensory feedback is required for non-congruent hand postures. We propose that erroneous representation of finger pad distance, if not compensated for between contact and onset of manipulation, might lead to manipulation performance errors.


Listed In: Neuroscience,
Tagged In: hand, psychophysics, transfer



View PDF | Contact Author