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사용자 친화적인 동적 키보드

A User Friendly Dynamic Keyboard

  • 양기철 (목포대학교, 멀티미디어공학과)
  • Yang, Gi-Chul (Department of Multimedia Engineering, Mokpo National University)
  • 투고 : 2014.04.14
  • 심사 : 2014.07.20
  • 발행 : 2014.07.28

초록

본 논문에서는 사용자 친화적이면서 좁은 영역에서도 효과적으로 입력을 수행할 수 있는 새로운 방식의 키보드를 제안한다. 기존의 키보드는 문자의 배열 형태나 사용 방식은 다르지만 대부분 키를 나열한 다음 선택하도록하는 방식이었다. 본 논문에서는 기존의 방식과 다르게 키보드 내용이 동적으로 변화하는 새로운 방식의 정보 입력장치인 Dynamic Keyboard(DynaKey)를 설계한다. Dynakey는 정확한 위치 선택이 어려운 장애인이나 화면이 작은 이동기기에서 사용하기 편리한 정보입력장치이다.

A new style keyboard which is user friendly and can be used efficiently in a small area is proposed in this paper. The most pre-existing keyboards were using the style of selecting a key among the arranged keys even the formats of key arrangement and the ways of using them were different. A new style of information input device called Dynamic Keyboard(DynaKey) is designed in this paper. Dynakey is a useful information input device which can be used efficiently for a mobile device with small display and for handicapped persons who has difficulties of selecting precise positions.

키워드

참고문헌

  1. Alden, D.G., Daniels, R. W., Kanarick, A.F. Keyboard Design and Operation: A Review of the Major Issues. The Journal of the Human Factors Society, vol. 14, 4, pp. 275-293, 1972. https://doi.org/10.1177/001872087201400401
  2. Noyes, J. The QWERTY Keyboard: A Review. International Journal of Man-Machine Studies, 18, 265-281, 1983. https://doi.org/10.1016/S0020-7373(83)80010-8
  3. Davis, J. R. Let Your Fingers do the Spelling: Implicit disambiguation of words spelled with the telephone keypad. Avios Journal, 9, 57-66, March 1991.
  4. MacKenzie, I.S., Soukoreff, R.W. Text Entry for Mobile Computing: Models and Methods, Theory and Practice. Human-Computer Interaction, 2002.
  5. Silfverberg, M., MacKenzie, I. S., and Korhonen, P. Predicting text entry speeds on mobile phones. Proceedings of the ACM Conference on Human Factors in Computing Systems, pp. 9-16, 2000.
  6. Blinkenstorfer, C. H. Graffiti. Pen Computing, 30-31, Jan. 1995.
  7. Mankoff, J. and Abowd, G. D. A word-level unistroke keyboard for pen input. ACM Symposium on User Interface Software and Techology 1998.
  8. DSI Datotech Systems Inc.: Multi-Point Touchpad; http://www.dato.com
  9. Evans, F. and Skiena, S. and Varshney, A.; VType: Entering Text in a Virtual World, submitted to International Journal of Human-Computer Studies
  10. Connnell, B, Jones, M, Mace, R, Mueller, J, Mullick, A, Ostroff, E, Sanford, J, Steinfeld, E, Story, M, & Vanderheiden, G., The Principles of Universal Design: Version 2.0., North Carolina State University, 1997.
  11. Burgstahler, S. , & Coy, R. (Eds.)., Universal Design in Higher Education: From Principles to Practice. Boston: Harvard Education Press. 2008.
  12. Burgstahler, S., Equal access: Universal design of instruction. Seattle: University of Washington. 2012. http://www.washington.edu/doit/Brochures /Academics/equal_access_udi.html.
  13. Dvorak, A. There is a Better Typewriter Keyboard. National Business Education Quarterly, Center for Universal Design. vol. 11, pp. 51-58, 1943.
  14. Microsoft, http://www.whitehatandroid.com/2010/08/microsoft-adaptive-keyboard-proto type.html#ixzz31ZiS6iqF, 2010.
  15. Florian Block1, Hans Gellersen1 and Nicolas Villar, Touch-Display Keyboards: Transforming Keyboards into Interactive Surfaces, CHI 2010: Tangible UI, April 10-15, 2010, Atlanta, GA, USA, 2010.
  16. Wikipedia, Optimus Maximus keyboard, http://en.wikipedia.org/wiki/Optimus_Maximus_keyboard, 2014.
  17. M. Weiss, J. Wagner, Y. Jansen, R. Jennings, R. Khoshabeh, J. D. Hollan, and J. Borchers. Slap widgets: Bridging the gap between virtual and physical controls on tabletops. In Proc. CHI '09, pages 481-490, 2009.
  18. E. Hoggan, S. A. Brewster, and J. Johnston. Investigating the effectiveness of tactile feedback for mobile touchscreens. In Proc. CHI '08, pages 1573-1582, 2008.
  19. B. Hartmann, M. Ringel Morris, H. Benko, and A. D. Wilson. Augmenting interactive tables with mice & keyboards. In Proc. UIST '09, 2009.