Identifying the effectiveness of using three different haptic devices for providing non-visual access to the web

Haptic technologies are often used to improve access to the structural content of graphical user interfaces, thereby augmenting the interaction process for blind users. While haptic design guidelines offer valuable assistance when developing non-visual interfaces, the recommendations presented are often tailored to the feedback produced via one particular haptic input/output device. A blind user is therefore restricted to interacting with a device which may be unfamiliar to him/her, rather than selecting from the range of commercially available products. This paper reviews devices available on the first and second-hand markets, and describes an exploratory study undertaken with 12 blindfolded sighted participants to determine the effectiveness of three devices for non-visual web interaction. The force-feedback devices chosen for the study, ranged in the number of translations and rotations that the user was able to perform when interacting with them. Results have indicated that the Novint Falcon could be used to target items faster in the first task presented, compared with the other devices. However, participants agreed that the force-feedback mouse was most comfortable to use when interacting with the interface. Findings have highlighted the benefits which low cost haptic input/output devices can offer to the non-visual browsing process, and any changes which may need to be made to accommodate their deficiencies. The study has also highlighted the need for web designers to integrate appropriate haptic feedback on their web sites to cater for the strengths and weaknesses of various devices, in order to provide universally accessible sites and online applications.

[1]  Jonathan C. Roberts,et al.  Integration of haptics with Web3D using the SAI , 2009, Web3D '09.

[2]  Rachel McCrindle,et al.  Developing a multimodal web application , 2004 .

[3]  Dimitrios Tzovaras,et al.  3D HapticWebBrowser: towards universal web navigation for the visually impaired , 2010, W4A.

[4]  Anand K. Gramopadhye,et al.  Improving simulated borescope inspection with constrained camera motion and haptic feedback , 2009, Graphics Interface.

[5]  Susan J. Lederman,et al.  The perceived roughness of resistive virtual textures: I. rendering by a force-feedback mouse , 2006, TAP.

[6]  J. C. Bliss,et al.  A direct translation reading aid for the blind , 1966 .

[7]  Enrico Pontelli,et al.  Making Microsoft Excel™: multimodal presentation of charts , 2009, Assets '09.

[8]  Richard E. Ladner,et al.  WebinSitu: a comparative analysis of blind and sighted browsing behavior , 2007, Assets '07.

[9]  Sarah A. Douglas,et al.  Haptic comparison of size (relative magnitude) in blind and sighted people , 2007, Assets '07.

[10]  William Harwin,et al.  Design of a multiple contact point haptic interface , 2001 .

[11]  Nigel W. John,et al.  The Effectiveness of Commercial Haptic Devices for Use in Virtual Needle Insertion Training Simulations , 2010, 2010 Third International Conference on Advances in Computer-Human Interactions.

[12]  Marcia Kilchenman O'Malley,et al.  Simplified authoring of 3D haptic content for the World Wide Web , 2003, 11th Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems, 2003. HAPTICS 2003. Proceedings..

[13]  Susumu Saito,et al.  Ergonomics of human-system interaction , 1994 .

[14]  Kay M. Stanney,et al.  Deriving haptic design guidelines from human physiological, psychophysical, and neurological foundations , 2004, IEEE Computer Graphics and Applications.

[15]  Antonio Frisoli,et al.  Haptic Interfaces for Virtual Prototyping , 2002 .

[16]  Thomas Wischgoll,et al.  Comparison of input devices and displays for protein visualization , 2005, CROS.

[17]  Marcia O’Malley,et al.  Simplified Authoring of 3 D Haptic Content for the World Wide Web , 2003 .

[18]  Keith Nesbitt,et al.  Structured Guidelines to Support the Design of Haptic Displays , 2005 .

[19]  Gunnar Jansson,et al.  Can the Efficiency of a Haptic Display Be Increased by Short-Time Practice in Exploration? , 2000, Haptic Human-Computer Interaction.

[20]  Dimitrios Tzovaras,et al.  Haptic Browser: A Haptic Environment to Access HTML Pages , 2004 .

[21]  Paolo Paolini,et al.  “Usable Accessibility” to the Web for blind Users , 2004 .

[22]  Calle Sjöström,et al.  Using haptics in computer interfaces for blind people , 2001, CHI Extended Abstracts.

[23]  Abdulmotaleb El-Saddik,et al.  Touchable 3D video system , 2009, TOMCCAP.

[24]  Linda Monaci,et al.  Identification of real objects under conditions similar to those in haptic displays: providing spatially distributed information at the contact areas is more important than increasing the number of areas , 2006, Virtual Reality.

[25]  Stephen Brewster,et al.  Web-based Multimodal Graphs for Visually Impaired People , 2002 .

[26]  Charlotte Magnusson,et al.  Drawing and guiding gestures in a mathematical task using the AHEAD application , 2007 .

[27]  Jennifer Mankoff,et al.  Is your web page accessible?: a comparative study of methods for assessing web page accessibility for the blind , 2005, CHI.

[28]  Stephen Brewster,et al.  Impact of haptic 'touching' technology on cultural applications , 2005 .

[29]  Mary Frances Theofanos,et al.  Bridging the gap: between accessibility and usability , 2003, INTR.

[30]  Seung-Chan Kim,et al.  The Effect of Sound on Haptic Perception , 2007, Second Joint EuroHaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems (WHC'07).

[31]  C. Magnusson,et al.  Navigation and recognition in complex haptic virtual environments: Reports from an extensive study with blind users , 2002 .

[32]  Mary Zajicek,et al.  WEB SEARCH AND ORIENTATION WITH BROOKESTALK , 2007 .

[33]  Karin Coninx,et al.  The Phantom versus the Falcon: Force Feedback Magnitude Effects on User's Performance during Target Acquisition , 2010, HAID.

[34]  Peter Robinson,et al.  Investigating the use of force feedback for motion-impaired users , 2000 .

[35]  Charlotte Magnusson,et al.  Force design for memory aids in haptic environments , 2007 .

[36]  M. Sile O'Modhrain,et al.  Web-Based Touch Display for Accessible Science Education , 2000, Haptic Human-Computer Interaction.

[37]  R. Klatzky,et al.  Hand movements: A window into haptic object recognition , 1987, Cognitive Psychology.

[38]  Stephen A. Brewster,et al.  Two-handed navigation in a haptic virtual environment , 2006, CHI EA '06.

[39]  Dimitris N. Metaxas,et al.  Feel the "fabric": an audio-haptic interface , 2003, SCA '03.

[40]  Paul Bach-y-Rita,et al.  Tactile displays , 1995 .

[41]  Kitch Barnicle,et al.  Usability testing with screen reading technology in a Windows environment , 2000, CUU '00.

[42]  Aude Dufresne,et al.  Touching and hearing GUI's: design issues for the PC-Access system , 1996, Assets '96.

[43]  Gitte Lindgaard,et al.  Evaluating a tool for improving accessibility to charts and graphs , 2010, ASSETS '10.

[44]  日本バーチャルリアリティ学会 Proceedings : Second Joint EuroHaptics Conference and Symposium on Haptic Interfaces for Virtual Environment and Teleoperator Systems : World Haptics 2007 : 22-24 March 2007, Tsukuba, Japan , 2007 .

[45]  Ian Oakley,et al.  Guidelines for the Design of Haptic Widgets , 2002 .

[46]  Wai Yu,et al.  Haptic access to 3D objects on the web , 2006 .

[47]  Stephen A. Brewster,et al.  Evaluation of multimodal graphs for blind people , 2003, Universal Access in the Information Society.

[48]  Nigel W. John,et al.  The Role of Haptics in Medical Training Simulators: A Survey of the State of the Art , 2011, IEEE Transactions on Haptics.

[49]  K.E. MaClean,et al.  Smart tangible displays in the everyday world: a haptic door knob , 1999, 1999 IEEE/ASME International Conference on Advanced Intelligent Mechatronics (Cat. No.99TH8399).

[50]  Jane Fielding,et al.  Understanding Social Statistics , 2000 .

[51]  Ravi Kuber,et al.  A novel multimodal interface for improving visually impaired people’s web accessibility , 2005, Virtual Reality.

[52]  Stephen D. Laycock,et al.  Recent Developments and Applications of Haptic Devices , 2003, Comput. Graph. Forum.

[53]  R L Klatzky,et al.  Identifying objects by touch: An “expert system” , 1985, Perception & psychophysics.

[54]  David Mioduser,et al.  Blind persons' acquisition of spatial cognitive mapping and orientation skills supported by virtual environment , 2005 .

[55]  Ravi Kuber,et al.  Towards developing assistive haptic feedback for visually impaired internet users , 2007, CHI.

[56]  Grigore C. Burdea,et al.  Force and Touch Feedback for Virtual Reality , 1996 .

[57]  S. J. Lederman,et al.  Flexible Exploration By Human And Robotic Haptic System , 1990, [1990] Proceedings of the Twelfth Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[58]  R. E. Ellis,et al.  Design and evaluation of a high-performance haptic interface , 1996, Robotica.

[59]  Paul Blenkhorn,et al.  How Blind Users' Mental Models Affect Their Perceived Usability of an Unfamiliar Screen Reader , 2003, INTERACT.

[60]  Nigel W. John,et al.  Chemical education using feelable molecules , 2009, Web3D '09.

[61]  William Harwin,et al.  Effects of Physical Bandwidth on Perception of Virtual Gratings , 2000, Dynamic Systems and Control: Volume 2.

[62]  P. Blenkhorn,et al.  WebbIE : a Web Browser for Visually Impaired People , 2004 .

[63]  Ravi Kuber,et al.  An empirical investigation into the difficulties experienced by visually impaired Internet users , 2008, Universal Access in the Information Society.