Design Considerations and Evaluation Methodology for Adapted Navigational Assistants for People with Cognitive Disabilities
Javier Gomez, Germán Montoro
2015
Abstract
Assisting pedestrians with cognitive disabilities in their movements through a city is not a simple task. Despite of the new mobile navigational software available in the market, many of these users (and their caregivers) are still resistant to use them. In some cases, due to the lack of adaptation to their needs. This issue motivated us to elaborate a set of design considerations to keep in mind when designing navigational assistants for people with cognitive disabilities. Besides, we developed a navigational prototype for smartphones that was evaluated with two users with Down syndrome. Therefore, we also propose some hints about how the evaluation should be carried out.
References
- Barbieri, T., Bianchi, A., Fraternali, P., and Tacchella, C. (2010). Autonomamente project-design, implementation and evaluation of a multimodal domotic application to support persons with cognitive disabilities. In e-Health Networking Applications and Services (Healthcom), 2010 12th IEEE International Conference on, pages 1-6. IEEE.
- Beeharee, A. K. and Steed, A. (2006). A natural wayfinding exploiting photos in pedestrian navigation systems. In Proceedings of the 8th conference on Humancomputer interaction with mobile devices and services, pages 81-88. ACM.
- Boisvert, A., Paquette, L., Pigot, H., and Giroux, S. (2009). Design challenges for mobile assistive technologies applied to people with cognitive impairments. Ambient Assistive Health and Wellness Management in the Heart of the City, pages 17-24.
- Braddock, D., Rizzolo, M., Thompson, M., and Bell, R. (2004). Emerging technologies and cognitive disability. Journal of Special Education Technology, 19(4):49-56.
- Brown, C. M. (1999). Human-computer interface design guidelines. Intellect Books.
- Caballero-Hernández, R., Moreno, J., Molina, A., Celma, S., Sánchez, J., Carrión, R., Casado, E., Rodríguez, R., Pulido, A., Tafalla, C., et al. (2012). 2d-tasks for cognitive rehabilitation. In 5th European Conference of the International Federation for Medical and Biological Engineering, pages 838-841. Springer.
- Carmien, S. (2003). Maps: Dynamic scaffolding for independence for persons with cognitive impairments. User Modeling 2003, pages 147-147.
- Carmien, S. (2006). Assistive technologies for persons with cognitive disabilities - artifacts of distributed cognition. In CHI 2006 workshop: Designing Technology for People with Cognitive Impairments.
- Carmien, S. (2010). Socio-technical environments and assistive technology abandonment.
- Cole, E. (2011). Patient-centered design: interface personalization for individuals with brain injury. Universal Access in Human-Computer Interaction. Users Diversity, pages 291-300.
- Fickas, S., Sohlberg, M., and Hung, P.-F. (2008). Routefollowing assistance for travelers with cognitive impairments: A comparison of four prompt modes. International Journal of Human-Computer Studies, 66(12):876-888.
- García de Marina, A. G., Carro, R. M., and Haya, P. (2012). Where should i go?: guiding users with cognitive limitations through mobile devices outdoors. In Proceedings of the 13th International Conference on Interacción Persona-Ordenador, page 46. ACM.
- García-Herranz, M., Olivera, F., Haya, P., and Alamán, X. (2012). Harnessing the interaction continuum for subtle assisted living. Sensors, 12(7):9829-9846.
- Hegarty, M., Richardson, A. E., Montello, D. R., Lovelace, K., and Subbiah, I. (2002). Development of a selfreport measure of environmental spatial ability. Intelligence, 30(5):425-447.
- Hidalgo, E., Castillo, L., Madrid, R., García-Pérez, O ., Cabello, M., and Fdez-Olivares, J. (2011). Athena: Smart process management for daily activity planning for cognitive impairment. Ambient Assisted Living, pages 65-72.
- Ishikawa, T., Fujiwara, H., Imai, O., and Okabe, A. (2008). Wayfinding with a gps-based mobile navigation system: A comparison with maps and direct experience. Journal of Environmental Psychology, 28(1):74-82.
- Krüger, A., Aslan, I., and Zimmer, H. (2004). The effects of mobile pedestrian navigation systems on the concurrent acquisition of route and survey knowledge. Mobile Human-Computer Interaction-MobileHCI 2004, pages 39-60.
- Lemoncello, R., Moore Sohlberg, M., and Fickas, S. (2010). How best to orient travellers with acquired brain injury: A comparison of three directional prompts. Brain Injury, 24(3):541-549.
- Lepistö, A. and Ovaska, S. (2004). Usability evaluation involving participants with cognitive disabilities. In Proceedings of the third Nordic conference on Human-computer interaction, pages 305-308. ACM.
- Lewis, C. (1982). Using the” thinking-aloud” method in cognitive interface design. IBM TJ Watson Research Center.
- Liu, A., Hile, H., Borriello, G., Brown, P., Harniss, M., Kautz, H., and Johnson, K. (2009). Customizing directions in an automated wayfinding system for individuals with cognitive impairment. In Proceedings of the 11th international ACM SIGACCESS conference on Computers and accessibility, pages 27-34. ACM.
- Lund, A. M. (2001). Measuring usability with the use questionnaire. Usability interface, 8(2):3-6.
- Mihailidis, A., Blunsden, S., Boger, J., Richards, B., Zutis, K., Young, L., and Hoey, J. (2010). Towards the development of a technology for art therapy and dementia: Definition of needs and design constraints. The Arts in Psychotherapy, 37(4):293-300.
- Mihailidis, A., Fernie, G., and Cleghorn, W. (2000). The development of a computerized cueing device to help people with dementia to be more independent. Technology and Disability, 13(1):23-40.
- O'Neill, B. and Gillespie, A. (2008). Simulating naturalistic instruction: the case for a voice mediated interface for assistive technology for cognition. Journal of Assistive Technologies, 2(2):22-31.
- Richter, K.-F., Dara-Abrams, D., and Raubal, M. (2010). Navigating and learning with location based services: A user-centric design. In Proc. 7th International Symposium on LBS & TeleCartography, pages 261-276.
- Richter, K.-F. and Duckham, M. (2008). Simplest instructions: Finding easy-to-describe routes for navigation. Geographic Information Science, pages 274-289.
- Siegel, A. W. and White, S. H. (1975). The development of spatial representations of large-scale environments. Advances in child development and behavior, 10:9.
Paper Citation
in Harvard Style
Gomez J. and Montoro G. (2015). Design Considerations and Evaluation Methodology for Adapted Navigational Assistants for People with Cognitive Disabilities . In Proceedings of the International Conference on Health Informatics - Volume 1: HEALTHINF, (BIOSTEC 2015) ISBN 978-989-758-068-0, pages 344-351. DOI: 10.5220/0005203603440351
in Bibtex Style
@conference{healthinf15,
author={Javier Gomez and Germán Montoro},
title={Design Considerations and Evaluation Methodology for Adapted Navigational Assistants for People with Cognitive Disabilities},
booktitle={Proceedings of the International Conference on Health Informatics - Volume 1: HEALTHINF, (BIOSTEC 2015)},
year={2015},
pages={344-351},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0005203603440351},
isbn={978-989-758-068-0},
}
in EndNote Style
TY - CONF
JO - Proceedings of the International Conference on Health Informatics - Volume 1: HEALTHINF, (BIOSTEC 2015)
TI - Design Considerations and Evaluation Methodology for Adapted Navigational Assistants for People with Cognitive Disabilities
SN - 978-989-758-068-0
AU - Gomez J.
AU - Montoro G.
PY - 2015
SP - 344
EP - 351
DO - 10.5220/0005203603440351