D. Mellet-d-'huart and G. Michel, Les environnements Informatiques pour l'Apprentissage Humain, Hermes, issue.11, 2006.

D. , L. Gall, and P. Allain, Applications des tech-niques de réalité virtuelle à la neuropsychologie clinique, pp.25-38, 2001.

M. Sahnoun, Conception et simulation d'une commande ?? retour d'effort pour fauteuil roulant ??lectrique, Sciences et Technologies pour le Handicap, vol.1, issue.2, 2007.
DOI : 10.3166/sth.1.123-141

M. Arpaillance and A. Debrill, Évaluer la communication de la personne polyhandicapée, 2013.

L. Marchal-crespo, A simulator and assist-as-needed control strategy for learning to drive a power wheelchair, 2006.

N. Steyn, Virtual Reality Platform Modelling and Design for Versatile Electric Wheelchair Simulation in an Enabled Environment, 2008.

Y. Morère, VIEW : Virtual electric wheelchair, 2012.

. Lifetool and . Wheelsim, lifetool-solutions.at [10] A. Arditi. Designing for people with partial sight and color deficiencies, 2005.

C. K. Olson, Children's motivations for video game play in the context of normal development., Review of General Psychology, vol.14, issue.2, 2010.
DOI : 10.1037/a0018984

C. Pinheiro-jr, E. Naves, P. Pino, E. Losson, A. Andrade et al., Alternative communication systems for people with severe motor disabilities: a survey, BioMedical Engineering OnLine, vol.10, issue.1, 2011.
DOI : 10.1007/s00221-006-0698-x
URL : https://hal.archives-ouvertes.fr/hal-00786413

D. Stredney, W. Carlson, J. E. Swan, and I. Blostein, The Determination of Environmental Accessibility and ADA Compliance Through Virtual Wheelchair Simulation. PRESENCE: Teleoperators and Virtual Environments; First Special Issue on The Application of Virtual Environments to Architecture, Building, and Large Structure Design, pp.297-305, 1995.