ACM Digital Library home
ACM home
Advanced Search
10.1145/2702123.2702373acmconferencesArticle/Chapter ViewAbstractPublication PageschiConference Proceedings
short-paper

TabLETS Get Physical: Non-Visual Text Entry on Tablet Devices

Publication: CHI '15: Proceedings of the 33rd Annual ACM Conference on Human Factors in Computing SystemsApril 2015 Pages 39–42https://doi.org/10.1145/2702123.2702373
  • 18citation
  • 712
    • Downloads
Metrics
Total Citations18
Total Downloads712
Last 12 Months74
Last 6 weeks2

ABSTRACT

Tablet devices can display full-size QWERTY keyboards similar to the physical ones. Yet, the lack of tactile feedback and the inability to rest the fingers on the home keys result in a highly demanding and slow exploration task for blind users. We present SpatialTouch, an input system that leverages previous experience with physical QWERTY keyboards, by supporting two-handed interaction through multitouch exploration and spatial, simultaneous audio feedback. We conducted a user study, with 30 novice touchscreen participants entering text under one of two conditions: (1) SpatialTouch or (2) mainstream accessibility method Explore by Touch. We show that SpatialTouch enables blind users to leverage previous experience as they do a better use of home keys and perform more efficient exploration paths. Results suggest that although SpatialTouch did not result in faster input rates overall, it was indeed able to leverage previous QWERTY experience in contrast to Explore by Touch.

References

  1. Azenkot, S. et al. Input finger detection for nonvisual touch screen text entry in Perkinput. In Proceedings of Graphics Interface (2012) Google ScholarGoogle Scholar
  2. Barrett, J. Performance effects of reduced proprioceptive feedback on touch typists and casual users in a typing task. Behaviour & Information Tech. 13 (6) (1994).Google ScholarGoogle Scholar
  3. Brungart, D. S., Simpson, B. D. Improving multitalker speech communication with advanced audio displays. Air Force Res. Lab Wright Patterson AFN OH (2005).Google ScholarGoogle Scholar
  4. Guerreiro, J., Gonçalves, D. Text-to-Speeches: Evaluating the Perception of Concurrent Speech by Blind People. In Proceedings of ASSETS (2014). Google ScholarGoogle Scholar
  5. Kim, S et al. TapBoard: making a touch screen keyboard more touchable. In Proceedings of CHI (2013). Google ScholarGoogle Scholar
  6. Nicolau, H. et al. B#: chord-based correction for multitouch braille input. In Proceedings of CHI (2014). Google ScholarGoogle Scholar
  7. Oliveira, J. et al. Blind people and mobile touch-based text-entry: acknowledging the need for different flavors. In Proceedings of ASSETS (2011). Google ScholarGoogle Scholar
  8. Rodrigues, A., Guerreiro, T. SWAT: Mobile System-Wide Assistive technologies. Proceedings of BCS HCI (2014). Google ScholarGoogle Scholar
  9. Southern, C. et al. An evaluation of BrailleTouch: mobile touchscreen text entry for the visually impaired. In Proceedings of Mobile HCI (2012). Google ScholarGoogle Scholar

Index Terms

  1. TabLETS Get Physical

    Comments

    Login options

    Check if you have access through your login credentials or your institution to get full access on this article.

    Sign in

    Full Access

    Get this Publication

    PDF Format

    View or Download as a PDF file.

    PDF

    eReader

    View online with eReader.

    eReader
    View Table of Contents
    About Cookies On This Site

    We use cookies to ensure that we give you the best experience on our website.

    Learn more

    Got it!