Abstract
Vision loss has severe impacts on physical, social and emotional well-being. The education of blind children poses issues as many scholar disciplines (e.g., geometry, mathematics) are normally taught by heavily relying on vision. Touch-based assistive technologies are potential tools to provide graphical contents to blind users, improving learning possibilities and social inclusion. Raised-lines drawings are still the golden standard, but stimuli cannot be reconfigured or adapted and the blind person constantly requires assistance. Although much research concerns technological development, little work concerned the assessment of programmable tactile graphics, in educative and rehabilitative contexts. Here we designed, on programmable tactile displays, tests aimed at assessing spatial memory skills and shapes recognition abilities. Tests involved a group of blind and a group of low vision children and adolescents in a four-week longitudinal schedule. After establishing subject-specific difficulty levels, we observed a significant enhancement of performance across sessions and for both groups. Learning effects were comparable to raised paper control tests: however, our setup required minimal external assistance. Overall, our results demonstrate that programmable maps are an effective way to display graphical contents in educative/rehabilitative contexts. They can be at least as effective as traditional paper tests yet providing superior flexibility and versatility.
Highlights
IntroductionA LTHOUGH different studies showed that lack of vision does not impede the ability to process and transform mental images (see, for review, [1]), a consistent body of knowledge demonstrated how blindness can have a negative impact on spatial cognition and on imagery abilities (see, for reviews, [1], [2])
A LTHOUGH different studies showed that lack of vision does not impede the ability to process and transform mental images, a consistent body of knowledge demonstrated how blindness can have a negative impact on spatial cognition and on imagery abilities
Even though we can observe a clear trend towards increased performance enhancement in the low vision group compared to the blind group, from a statistical point of view there are no significant differences, as it happened with the test on geometrical shapes recognition
Summary
A LTHOUGH different studies showed that lack of vision does not impede the ability to process and transform mental images (see, for review, [1]), a consistent body of knowledge demonstrated how blindness can have a negative impact on spatial cognition and on imagery abilities (see, for reviews, [1], [2]). Studies investigating spatial memory when visual impairment occurs showed deficits in blind people. Textured materials, thermoformed surfaces or swell paper hosting Braille dots or raised lines are generally used to identify tactile pictures as two-dimensional representations [17]. To address these issues, several technological approaches have been proposed either using tactile displays [18]–[25], haptic interaction technologies [26], [27] or haptic vibrational feedback coupled with mobile devices [28], [29]
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