Richard L. Kline
- 1.B. B. Bederson and J. D. Hollan. Pad++: A Zooming Graphical Interface for Exploring Alternate Interface Physics. In Proc. 7th Annual Symposium on User Interface Software and Technology (UIST'94), Marina del Rey, November 2-4, 1994, pages 39-48. ACM Press.]] Google Scholar
Digital Library
- 2.M. M. Blattner, E. P. Glinert, J. A. Jorge, and G. R. Ormsby. Metawidgets: Towards a Theory of Multimodal Interface Design. In Proc. COMPSAC'92, Chicago, September 22-25, 1992, pages 115-120. IEEE Computer Society Press.]]Google ScholarCross Ref
- 3.M. M. Blattner, D. A. Sumikawa, and R. M. Greenberg. Earcons and Icons: Their Structure and Common Design Principles. Human-Computer Interaction, 4(1):11-44, 1989.]] Google ScholarDigital Library
- 4.K. Chin-Purcell. Puff computer software. Available (as of this writing) via anonymous ftp from ftp.arc.umn.edu.]]Google Scholar
- 5.W. K. Edwards and E. D. Mynatt. An Architecture for Transforming Graphical Interfaces. In Proc. 7th Annual Symposium on User Interface Software and Technology (UIST'94), Marina del Rey, November 2-4, 1994, pages 39-48. ACM Press.]] Google ScholarDigital Library
- 6.W. W. Gaver. The SonicFinder: An Interface That Uses Auditory Icons. Human-Computer Interaction, 4(1):67-94, 1989.]] Google ScholarDigital Library
- 7.E. P. Glinert and M. M. Blattner. Programming the Multimodal Interface. In Proc. 1st ACM Int. Conf. on Multimedia (MULTIMEDIA'93), Anaheim, August 2-6, 1993, pages 189-197. ACM Press.]] Google ScholarDigital Library
- 8.E. P. Glinert, R. L. Kline, G. R. Ormsby, and G. B. Wise. UnWindows: Bringing Multimedia Computing to Users with Disabilities. In Proc. IISF/ACMJ International Symposium on Computers as Our Better Partners, Tokyo, March 7-9, 1994, pages 34-42. World Scientific.]]Google Scholar
- 9.E. P. Glinert and R. E. Ladner. A Large-Font Virtual Terminal Interface: A Software Prosthesis for the Visually Impaired. Communications of the ACM, 27(6):567-572, June 1984.]] Google ScholarDigital Library
- 10.H. Lieberman. Powers of Ten Thousand: Navigating in Large Information Spaces. In Proc. 7th Annual Symposium on User Interface Software and Technology (UIST'94), Marina del Rey, November 2-4, 1994, pages 15-16. ACM Press.]] Google ScholarDigital Library
- 11.E. P. Glinert and B. W. York. Computers and People with Disabilities. Communications of the ACM, 35(5):32-35, May 1992.]] Google ScholarDigital Library
- 12.R. L. Kline and E. P. Glinert. X Windows Tools for Low Vision Users. SIGCAPH Newsletter, Number 49, pages 1-5, March 1994.]] Google ScholarDigital Library
- 13.M. Krell. LVRS: The Low Vision Research System. In Proc. First ACM Conf. on Assistive Technologies (ASSETS'94), Marina del Rey, October 31-November 1, 1994, pages 136-140. ACM Press.]] Google ScholarDigital Library
- 14.L. Norskog et al. SOX (Sound Exchange) computer software. Available (as of this writing) via anonymous ftp from ftp.cwi.nl and other sites.]]Google Scholar
- 15.G. G. Robertson and J. D. Mackinlay. The Document Lens. In Proc. 6th Annual Symposium on User Interface Software and Technology (UIST'93), Atlanta, November 3-5, 1993, pages 101-108.]] Google ScholarDigital Library
- 16.M. Sarkar, S. S. Snibbe, O. J. Tversky, and S. P. Reiss. Stretching the Rubber Sheet: A Metaphor for Viewing Large Layouts on Small Screens. In Proc. 6th Annual Symposium on User Interface Software and Technology (UIST'93), Atlanta, November 3-5, 1993, pages 81-91.]] Google ScholarDigital Library
- 17.G. C. Vanderheiden. Nonvisual Alternative Display Techniques for Output from Graphics-Based Computers. J. Visual Impairment and Blindness, 83(8):383-390, October 1989.]]Google Scholar
- 18.G. C. Vanderheiden, W. Boyd, J. H. Mendenhall, and K. Ford. Development of a Multisensory, Nonvisual Interface to Computers for Blind Users. In Proc. 35th Annual Meeting of the Human Factors Society, pages 315-318, 1991.]]Google ScholarCross Ref
- 19.A. R. Vener and E. P. Glinert. MAGNEX: A Text Editor for the Visually Impaired. In Proc. 16th Annual ACM Computer Science Conference, Atlanta, February 23-25, 1988, pages 402-407.]] Google ScholarDigital Library
- 1.The effect is quite similar to that obtained by pointing a video camera at a monitor which is displaying the output of that same camera.Return to text]]Google Scholar
- 2.When performing name comparisons, we do not check for exact matches. Rather, a window name is considered to match a name in the association list as long as its first characters exactly match an entry in the list. This allows the desired matching to occur even for applications that change their window titles.Return to text]]Google Scholar
Index Terms
- Improving GUI accessibility for people with low vision
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