Abstract
Visually impaired people can take advantage of multimodal systems in which visual information is communicated through different modes of interaction and types of feedback. Among the possible interaction modes, thermal interaction in the context of assistive devices for visually impaired people lacks research in spite of its potential. In this paper, we propose a temperature-depth mapping algorithm and a thermal display system to convey depth and depth-color of artworks’ features in the context of tactile exploration by visually impaired people. Tests with a total of 18 sighted users and six visually impaired users were performed both during the mapping algorithm design and after developing a tactile temperature prototype artwork model to assess the potentials of thermal interaction for recognizing depth and color-depth in tactile art appreciation. These tests showed both an existing correlation between depth and temperature and that the mapping based on that correlation is appropriate for conveying depth during artwork tactile exploration.
Highlights
The algorithm was applied to two different contexts: for conveying depth and for conveying color-based depth
Tests were performed to a total of 18 sighted users and six visually impaired users both during the mapping algorithm design and after developing a tactile temperature prototype artwork model to assess the potentials of thermal interaction for recognizing depth and color-depth in tactile art appreciation
The results showed that the temperature-depth mapping algorithm was able to successfully translate the visual depth feeling into temperature cues
Summary
Researchers have extensively studied different types of interaction and sensing modalities that could be used by combining several of them together in assistive technology solutions for the VIP (Visually Impaired People) [1]. Humans are able to detect temperature and temperature variations thanks to the thermoreceptors located in the dermal and epidermal skin layers. These thermoreceptors located in the skin code the relative changes and the absolute temperature and send the information to the brain. Low-threshold receptors are activated by temperatures that fall within the range of 15 ◦ C and 45 ◦ C. High-threshold detectors are activated by temperatures falling outside of that range. Vertical placement: we perceive objects that are placed lower in the image as closer to us, Vertical placement: we perceive objects thataway.
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