4pBVa2. New discoveries in taction and their implications for tactile communication.
Session: Thursday Afternoon, December 5
Time: 2:20
Author: Stanley J. Bolanowski
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Author: Ronald T. Verrillo
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Author: George A. Gescheider
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Author: James C. Makous
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Author: Bradley M. Pietras
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Author: Jason C. Cohen
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Author: Christine M. Checkosky
Location: Inst. for Sensory Res. and Dept. of Bioengineering and Neurosci., Syracuse Univ., Syracuse, NY 13244
Abstract:
The implementation of tactile aids for the deaf and blind has progressed
largely through the development of new technologies and strategies adapted to
adequately and efficiently activate previously understood tactile mechanisms and
processes. In the past decade, however, important new discoveries have been made
relating to the basic mechanisms of taction such as the effects of aging and
disease, submodality interactions, skin mechanics, and learning and cortical
plasticity. These advances in our knowledge will impact heavily on future
developments and applications of tactile aids. Several of these new discoveries
will be described in the context of basic tactile mechanisms and in their
implications for significant improvements in the effectiveness of aids for
tactile communication. [Work supported by NIH.]
ASA 132nd meeting - Hawaii, December 1996