Visually Augmented Audio-Tactile Graphics for Visually Impaired People

Tactile graphics play an essential role in knowledge transfer for blind people. The tactile exploration of these graphics is often challenging because of the cognitive load caused by physiological constraints and their complexity. The coupling of physical tactile graphics with electronic devices offers to support the tactile exploration by auditory feedback. Often, these systems have strict constraints regarding their mobility or the process of coupling both components. Additionally, visually impaired people cannot appropriately benefit from their residual vision. This article presents a concept for 3D printed tactile graphics, which offers to use audio-tactile graphics with usual smartphones or tablet-computers. By using capacitive markers, the coupling of the tactile graphics with the mobile device is simplified. These tactile graphics integrating these markers can be printed in one turn by off-the-shelf 3D printers without any post-processing and allows us to use multiple elevation levels for graphical elements. Based on the developed generic concept on visually augmented audio-tactile graphics, we presented a case study for maps. A prototypical implementation was tested by a user study with visually impaired people. All the participants were able to interact with the 3D printed tactile maps using a standard tablet computer. To study the effect of visual augmentation of graphical elements, we conducted another comprehensive user study. We tested multiple types of graphics and obtained evidence that visual augmentation may offer clear advantages for the exploration of tactile graphics. Even participants with a minor residual vision could solve the tasks with visual augmentation more quickly and accurately.

[1]  Gerhard Weber,et al.  Accessible Maps for the Visually Impaired , 2011 .

[2]  Simon Ungar,et al.  An empirical approach on the design of tactile maps and diagrams: The cognitive tactualization approach , 2006 .

[3]  Tom Yeh,et al.  Toward 3D-Printed Movable Tactile Pictures for Children with Visual Impairments , 2015, CHI.

[4]  Joaquim Lloveras,et al.  The effect of volumetric (3D) tactile symbols within inclusive tactile maps. , 2015, Applied ergonomics.

[5]  M. Bergamasco,et al.  Computer graphics access for blind people through a haptic and audio virtual environment , 2004, Proceedings. Second International Conference on Creating, Connecting and Collaborating through Computing.

[6]  Mandayam A. Srinivasan,et al.  Surface Microgeometry: Tactile Perception and Neural Encoding , 1991 .

[7]  Richard E. Ladner,et al.  Tactile Graphics with a Voice , 2016, ACM Trans. Access. Comput..

[8]  Baoxin Li,et al.  Instant tactile-audio map: enabling access to digital maps for people with visual impairment , 2009, Assets '09.

[9]  T P Way,et al.  Automatic visual to tactile translation--Part I: Human factors, access methods, and image manipulation. , 1997, IEEE transactions on rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society.

[10]  Stephen A. Brewster,et al.  Feeling what you hear: tactile feedback for navigation of audio graphs , 2006, CHI.

[11]  Timo Götzelmann,et al.  CapCodes: Capacitive 3D Printable Identification and On-screen Tracking for Tangible Interaction , 2016, NordiCHI.

[12]  Anke M. Brock,et al.  Interactivity Improves Usability of Geographic Maps for Visually Impaired People , 2015, Hum. Comput. Interact..

[13]  Timo Götzelmann,et al.  Towards Automatically Generated Tactile Detail Maps by 3D Printers for Blind Persons , 2014, ICCHP.

[14]  Timo Götzelmann,et al.  BlindWeb Maps - An Interactive Web Service for the Selection and Generation of Personalized Audio-Tactile Maps , 2016, ICCHP.

[15]  Thomas Ertl,et al.  Interactively Displaying Maps on a Tactile Graphics Display , 2012 .

[16]  Lei Shi,et al.  Tickers and Talker: An Accessible Labeling Toolkit for 3D Printed Models , 2016, CHI.

[17]  Alexander I. Rudnicky,et al.  Pocketsphinx: A Free, Real-Time Continuous Speech Recognition System for Hand-Held Devices , 2006, 2006 IEEE International Conference on Acoustics Speech and Signal Processing Proceedings.

[18]  Barbara Leporini,et al.  Enriching Graphic Maps to Enable Multimodal Interaction by Blind People , 2013, HCI.

[19]  Yuichi Itoh,et al.  PUCs: detecting transparent, passive untouched capacitive widgets on unmodified multi-touch displays , 2013, ITS.

[20]  Kenneth E. Barner,et al.  Automatic production of tactile graphics from scalable vector graphics , 2005, Assets '05.

[21]  Vincent Hayward,et al.  Refreshable tactile graphics applied to schoolbook illustrations for students with visual impairment , 2008, Assets '08.

[22]  Richard E. Ladner,et al.  Automated tactile graphics translation: in the field , 2007, Assets '07.

[23]  Tetsuya Watanabe,et al.  A Study of Legible Braille Patterns on Capsule Paper : Diameters of Braille Dots and Their Interspaces on Original Ink-printed Paper , 2007 .

[24]  Timo Götzelmann,et al.  LucentMaps: 3D Printed Audiovisual Tactile Maps for Blind and Visually Impaired People , 2016, ASSETS.

[25]  Anke M. Brock Interactive Maps for Visually Impaired People: Design, Usability and Spatial Cognition , 2013 .

[26]  Gerhard Weber,et al.  ATMap: Annotated Tactile Maps for the Visually Impaired , 2011, COST 2102 Training School.

[27]  Dianne T. V. Pawluk,et al.  Automatic image conversion to tactile graphic , 2013, ASSETS.

[28]  Meredith Ringel Morris,et al.  Touchplates: low-cost tactile overlays for visually impaired touch screen users , 2013, ASSETS.

[29]  T P Way,et al.  Automatic visual to tactile translation--Part II: Evaluation of the TACTile Image Creation System. , 1997, IEEE transactions on rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society.

[30]  Floyd R. Cargill Braille Authority of North America , 1980 .

[31]  Stephen A. Brewster,et al.  Investigating touchscreen accessibility for people with visual impairments , 2008, NordiCHI.

[32]  Martin Pielot,et al.  TouchOver map: audio-tactile exploration of interactive maps , 2011, Mobile HCI.

[33]  Stephen A. Brewster,et al.  Multimodal Trajectory Playback for Teaching Shape Information and Trajectories to Visually Impaired Computer Users , 2008, TACC.

[34]  Eyal de Lara,et al.  Timbremap: enabling the visually-impaired to use maps on touch-enabled devices , 2010, Mobile HCI.

[35]  Andreas Butz,et al.  Sketch-a-TUI: low cost prototyping of tangible interactions using cardboard and conductive ink , 2012, Tangible and Embedded Interaction.

[36]  Gerhard Weber,et al.  Interactive Audio-haptic Map Explorer on a Tactile Display , 2015, Interact. Comput..

[37]  Jacob O. Wobbrock,et al.  Access lens: a gesture-based screen reader for real-world documents , 2013, CHI.

[38]  Frédéric Valentin,et al.  MapSense: Multi-Sensory Interactive Maps for Children Living with Visual Impairments , 2016, CHI.

[39]  Vít 1 3 D PRINTING TECHNOLOGY IN TACTILE MAPS COMPILING , 2009 .

[40]  Deborah Gilden,et al.  Talking TMAP: Automated generation of audio-tactile maps using Smith-Kettlewell's TMAP software , 2006 .

[41]  Baoxin Li,et al.  TactileFace: a system for enabling access to face photos by visually-impaired people , 2011, IUI '11.

[42]  Amy Hurst,et al.  VizTouch: automatically generated tactile visualizations of coordinate spaces , 2012, TEI.

[43]  Timo Götzelmann,et al.  SmartTactMaps: a smartphone-based approach to support blind persons in exploring tactile maps , 2015, PETRA.

[44]  Robert Xiao,et al.  Estimating 3D Finger Angle on Commodity Touchscreens , 2015, ITS.

[45]  F. Wilcoxon Individual Comparisons by Ranking Methods , 1945 .

[46]  Michael Rohs,et al.  CapWidgets: tangile widgets versus multi-touch controls on mobile devices , 2011, CHI Extended Abstracts.

[47]  Saiganesh Swaminathan,et al.  Linespace: A Sensemaking Platform for the Blind , 2016, CHI.

[48]  R. Dan Jacobson Navigating maps with little or no sight: An audio-tactile approach , 1998 .

[49]  Simon Ungar,et al.  A SCIENTIFIC APPROACH TO TACTILE MAP DESIGN : MINIMUM ELEVATION OF TACTILE MAP SYMBOLS , 2005 .

[50]  M. A. Espinosa,et al.  Comparing Methods for Introducing Blind and Visually Impaired People to Unfamiliar Urban Environments , 1998 .

[51]  Margherita Antona,et al.  Universal Access in Human-Computer Interaction. Design Methods, Tools, and Interaction Techniques for eInclusion , 2013, Lecture Notes in Computer Science.

[52]  김만두,et al.  시력 손상과 시각 장애(Visual Impairment and Blindness) , 2011 .