Stepping on obstacles with a sensory substitution device on the lower leg: practice without vsion beneficial than practice with vision
Publisher
Public Library of ScienceDate
2014-06-05Citation
10.1371/journal.pone.0098801
Plos One 9.6 (2014): e98801
ISSN
1932-6203 (online)DOI
10.1371/journal.pone.0098801Funded by
This material is based upon work supported by Grant FFI2009-13416-C02-02 of the Spanish Ministry of Science and Innovation.Project
Gobierno de España. FFI2009-13416-C02-02Editor's Version
http://dx.doi.org/10.1371/journal.pone.0098801Subjects
Vibrotactile stimulation; Sensorimotor cortex; Leg Physiology; Light intensity; Visual perception; PsicologíaRights
© 2014 Lobo et al.Abstract
Practice is essential for an adapted use of sensory substitution devices. Understanding the learning process is therefore a fundamental issue in this field of research. This study presents a novel sensory substitution device worn on the lower leg and uses the device to study learning. The device includes 32 vibrotactile actuators that each vibrate as a function of the distance to the nearest surface in a particular direction. Participants wearing the device were asked to approach an object and to step on the object. Two 144-trial practice conditions were compared in a pretest-practice-posttest design. Participants in the first condition practiced with vibrotactile stimulation while blindfolded. Participants in the second condition practiced with vibrotactile stimulation along with normal vision. Performance was relatively successful, both types of practice led to improvements in performance, and practice without vision led to a larger reduction in the number of errors than practice with vision. These results indicate that distance-based sensory substitution is promising in addition to the more traditional light-intensity-based sensory substitution and that providing appropriate sensorimotor couplings is more important than applying the stimulation to highly sensitive body parts. The observed advantage of practice without
vision over practice with vision is interpreted in terms of the guidance hypothesis of feedback and learning.
Files in this item
Google Scholar:Lobo, Lorena
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Travieso García, David
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Barrientos, Antonio
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Jacobs, David
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