ABSTRACT
In this paper, we present a support system for quadriplegics. To carry out this project, we conducted a participatory approach with patients and therapists. From various prototypes, we have defined a modular and highly reconfigurable architecture in order to accommodate the needs and abilities of patients to acquire usage data for the practitioners.
This system is being deployed in the Physical Medicine and Rehabilitation service at CHU of Toulouse.
- Arduino, open-source electronics prototyping platform, http://www.arduino.ccGoogle Scholar
- S. Brochard, J.-P. Pedelucq, A. Cormerais, M. Thiebaut, O. Rémy-Néris, Satisfaction with technological equipment in individuals with tetraplegia following spinal cord injury, Ann Readapt Med Phys. 2007 Mar; 50(2):78--84.Google Scholar
- H. Ducrot, E. Martin et J-R. Scherrer, Le système robotique « MASTER » au service des personnes handicapées, in Nouvelles Technologies et Traitement de l'Information en Médecine, Informatique et Santé, Volume 4, 1991.Google Scholar
- P. Green, L. Wei-Haas, The Wizard of Oz: a tool for rapid development of user interfaces, Final Report number UMTRI-85-25, 1985, http://hdl.handle.net/2027.42/174Google Scholar
- S. Greenberg, Ch. Fitchett, Phidgets: Easy Development of Physical Interfaces through Physical Widgets, ACM UIST 2001 Symposium on User Interface Software and Technology, November 11--14, Orlando, Florida. Google ScholarDigital Library
- S. A. Holme, E. M. Kanny, M. R. Guthrie K. L. Johnson, The use of environmental control units by occupational therapists in spinal cord injury and disease services, Am J Occup Ther. 1997 Jan; 51(1):42--8.Google Scholar
- G. Kemoun, AC Lefebvre-Donze, E. Magnier, Qualité de vie des personnes handicapées à domicile: impact de l'action d'une équipe pluridisciplinaire de soutien, Octobre 2002, APF-Moteurline, trouvé à l'adresse: http://www.moteurline.apf.asso.fr/epidemiostatsevaluation/etudeshp/csapf/qolkemmoun.htmGoogle Scholar
- I. Laffont, N. Biard, J. Bouteille, S. Pouplin, B. Guillon, B. Bernuz, C. Rech, Tétraplégie: solutions technologiques de compensation des incapacités découlant de l'atteinte des membres supérieurs, La Lettre de Médecine Physique et de Réadaptation, Vol. 24, No. 3. (2008), pp. 113--121.Google Scholar
- L. Mailhan, F. Genêt, Evaluation des déficiences et incapacités, in Paraplégie et tétraplégie d'origine traumatique, Neurologies, Novembre 2002, vol. 5.Google Scholar
- P. Pino, E. Brangier, Environnement Digital de Téléactions pour Handicapés: Adaptation automatique du temps de défilement aux caractéristiques et intentions de l'utilisateur, Handicap 2000, Paris, Juin 2000.Google Scholar
- J. San Agustin, H. Skovsgaard, J. P. Hansen and D. W. Hansen, Low-cost gaze interaction: ready to deliver the promises. In Proceedings of the 27th international Conference Extended Abstracts on Human Factors in Computing Systems, Boston, MA, USA, April 04--09, 2009, CHI EA'09. Google ScholarDigital Library
- D. Thévenin, J. Coutaz, Plasticity of User interfaces: Framework and Research Agenda, in Proceedings of Interact 1999, IOS Press, pp. 110--117.Google Scholar
- M. Verdonck, E. Steggles, G. Chard, The meaning of living with or without environmental control systems for people with tetraplegia: An Irish focus group study, AAATE 2009, IOS Press, pp. 297--30.Google Scholar
Index Terms
- Conception d'un outil de contrôle et de communication pour personnes tétraplégiques
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