ABSTRACT
In today's world, technological change outpaces many people's ability to comprehend or trust it, let alone embrace it. It is vitally important that developers of pervasive technology for the elderly are grounded in the needs, experience, and capabilities of the people they seek to help. We have organized and participated in an ongoing outreach program that trains elderly residents of our rural community in digital literacy skills. The attendees at our help sessions, having been left behind in earlier iterations of the technological revolution, exemplify the challenges facing the designers of tomorrow's assistive technology. We report on the lessons we have learned in this regard through the interactions with our elderly participants. We identify three recurring themes: anxiety stifles exploration, details obscure abstraction, lag complicates adoption - illustrating them with real stories gleaned from our records. We offer our program as a model for engagement with the elderly, helping them overcome their obstacles to literacy and giving us researchers a non-invasive perspective on their situation.
- U.S. Census Bureau, Population Division. 2011. 2010 Census of Population. https://www.census.gov/2010census/data/.Google Scholar
- Forstall, R. L. 2013. Michigan Population of Counties by Decennial Census: 1900 to 1990. U.S. Census Bureau, Population Division. http://www.census.gov/population/cencounts/mi190090.txt.Google Scholar
- Lave, J., and Wenger, E. 1991. Situated Learning: Legitimate Peripheral Participation. Cambridge University Press.Google ScholarCross Ref
- Holzinger, A., Searle, G., and Nischelwitzer, A. 2007. On Some Aspects of Improving Mobile Applications for the Elderly. Universal Access in Human Computer Interaction. Coping with Diversity. Springer Lecture Notes in Computer Science 4554, 923--932. Google ScholarDigital Library
- Ellis, R. D., and Allaire, J. C. 1999. Modeling Computer Interest in Older Adults: The Role of Age, Education, Computer Knowledge, and Computer Anxiety. Human Factors: The Journal of the Human Factors and Ergonomics Society 41, 3, 345--355.Google ScholarCross Ref
- Laguna, K., and Babcock, R. L. 1997. Computer Anxiety in Young and Older Adults: Implications for Human-Computer Interactions in Older Populations. Computers in Human Behavior 13, 3, 317--326.Google ScholarCross Ref
- Dickinson, A., Eisma, R., and Gregor, P. 2011. The Barriers That Older Novices Encounter to Computer Use. Universal Access in the Information Society 10, 3, 261--266. Google ScholarDigital Library
- Singley, M. K., and Anderson, J. R. 1989. The Transfer of Cognitive Skill. Harvard University Press. Google ScholarDigital Library
- Riley, M. W., and Riley Jr., J. W. 1994. Structural Lag: Past and Future. In Age and Structural Lag: Society's Failure to Provide Meaningful Opportunities in Work, Family, and Leisure, M. W. Riley et al., Ed. John H. Wiley & Sons, 15--36.Google Scholar
- Lawton, M. P. 1998. Future Society and Technology. In Gerontechnology: A Sustainable Investment in the Future. Graafmans, J. A. M. et al., Eds. IOS Press, Amsterdam, 12--22.Google Scholar
- Barkhuus, L., and Rode, J. 2007. From Mice to Men-24 Years of Evaluation in CHI. In Proceedings of the SIGCHI Conference on Human Factors in Computing Systems (San Jose, CA). CHI '07. Google ScholarDigital Library
- Karavidas, M., Lim, N. K., and Katsikas, S. L. 2005. The Effects of Computers on Older Adult Users. Computers in Human Behavior 21, 5, 697--711.Google ScholarCross Ref
- Wild, K. V., Mattek, N. C., Maxwell, S. A., Dodge, H. H., Jimison, H. B., and Kaye, J. A. 2012. Computer-Related Self-Efficacy and Anxiety in Older Adults with and without Mild Cognitive Impairment. Alzheimer's & Dementia 8, 6, 544--552.Google ScholarCross Ref
- Safford, S. M., and Worthington, J. E. 1999. Computer Anxiety in Individuals with Serious Mental Illness. Computers in Human Behavior 15, 6, 735--745.Google ScholarCross Ref
- Blit-Cohen, E., and Litwin, H. 2004. Elder Participation in Cyberspace: A Qualitative Analysis of Israeli Retirees. Journal of Aging Studies 18, 4, 385--398.Google ScholarCross Ref
Index Terms
- Lessons from our elders: identifying obstacles to digital literacy through direct engagement
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