Open Access
Issue
MATEC Web of Conferences
Volume 22, 2015
International Conference on Engineering Technology and Application (ICETA 2015)
Article Number 01023
Number of page(s) 7
Section Information and Communication Technology
DOI https://doi.org/10.1051/matecconf/20152201023
Published online 09 July 2015
  1. Bilde, P.E., Kliim-Due, M. & Rasmussen, B. et al. 2011. Individualized, home-based interactive training of cerebral palsy chidren delivered through the Internet. BMC Neurology, 11(1): 32. [CrossRef]
  2. Bonnechere, B., Jansen, B. & Salvia, P. et al. 2014. Validity and reliability of the Kinect within functional assessment activities: comparison with standard stereo photogrammetry. Gait & Posture, 39(1): 593–598. [CrossRef]
  3. Boutsika, E. 2014. Kinect in Education: A Proposal for Children with Autism. Procedia Computer Science, 27: 123–129. [CrossRef]
  4. Burdea, G. 2002. Virtual rehabilitation-benefits and challenges. 1st International Workshop on Virtual Reality Rehabilitation (Mental Health, Neurological, Physical, Vocational) VRMHR. sn: 1–11.
  5. Burdea, G.C., Cioi, D. & Kale, A. et al. 2013. Robotics and gaming to improve ankle strength, motor control, and function in children with cerebral palsy—A case study series. Neural Systems and Rehabilitation Engineering, IEEE Transactions on, 21(2): 165–173.
  6. Burke, J.W., McNeill, M.D.J. & Charles, D.K. et al. 2009. Optimising engagement for stroke rehabilitation using serious games. Image and Vision Computing Journal, 25: 1085–1099.
  7. Chang, Y.J., Han, W.Y. & Tsai, Y.C. 2013. A Kinect-based upper limb rehabilitation system to assist people with cerebral palsy. Research in developmental disabilities, 34(11): 3654–3659. [CrossRef]
  8. Coleman, M.B., Heller, K.W. & Cihak, D.F. et al. 2005. Using computer-assisted instruction and the nonverbal reading approach to teach word identification. Focus on Autism and Other Developmental Disabilities, 20(2): 80–90. [CrossRef]
  9. Dautenhahn, K. & Werry, I. 2014. Towards interactive robots in autism therapy: Background, motivation and challenges. Pragmatics & Cognition, pp:1-35.
  10. De Mello Monteiro C B, Massetti T. & Da Silva T D, et al. 2014. Transfer of motor learning from virtual to natural environments in individuals with cerebral palsy. Research in Developmental Disabilities, 35(10): 2430–2437. [CrossRef]
  11. Dores, A.R., Carvalho, I.P., Barbosa, F. et al. 2012. Computer-assisted rehabilitation program–virtual reality (CARP-VR): A program for cognitive rehabilitation of executive dysfunction. Virtual and Networked Organizations, Emergent Technologies and tools, pp: 90–100. [CrossRef]
  12. Golan, O. & Baron-Cohen, S. 2006. Systemizing empathy: Teaching adults with Asperger syndrome or high-functioning autism to recognize complex emotions using interactive multimedia. Developmental and Psychopathology, 18: 591–617. [CrossRef]
  13. James, S., Ziviani, J. & Boyd, R. 2014. A systematic review of activities of daily living measures for children and adolescents with cerebral palsy. Developmental Medicine & Child Neurology, 56: 233–244. [CrossRef]
  14. Kandalaft, M.R. 2013. Virtual reality social cognition training for young adults with high-functioning autism. Journal of Autism and Developmental Disorders, 43: 34–44. [CrossRef]
  15. Kim, D.A. & Lee, J.A., Hwang, P.W. et al. 2012. The effect of comprehensive hand repetitive intensive strength training (CHRIST) using motion analysis in children with cerebral palsy. Annals of Rehabilitation Medicine, 36(1): 39–46. [CrossRef]
  16. Koegel, L. Freden, R.M. & Lang, R. et al. 2012. Interventions for Children with Autism Spectrum Disorders in Inclusive School Settings. Cognition and Behavioral Practice, pp: 401–412. [CrossRef]
  17. Kroustallakis, G. 2005. Children with Special Needs. 6th ed. Athens (in Greek).
  18. LaBelle, K. 2011. Evaluation of Kinect Joint Tracking for Clinical and In-home Stroke Rehabilitation Tools, University of Notre Dame.
  19. Marie, B. & Heidi, S. 2011. An intensive virtual reality program improves functional balance and mobility of adolescents with cerebral palsy. Pediatric Physical Therapy, 23(3): 258–266. [CrossRef]
  20. Miskam, M.A., Msanin, N.S. & Jamhuri, M.H. et al. 2014. Encouraging children with autism to improve social and communication skills through the game-based approach. Elsevier B.V. pp: 94–98.
  21. Moore, D., McGrath, P. & Thorpe, J. 2000. Computer-aided learning for people with autism–a framework for research and development. Innovations in Education and Teaching International, 37(3): 218–228. [CrossRef]
  22. Park, K.M., Ku, J. & Choi, S.H. et al. 2011. A virtual reality application in role-plays of social skills training for schizophrenia: a randomized, controlled trial. Psychiatry Research, 189(2): 166–172. [CrossRef]
  23. Parry, I., Carbullido, C. & Kawada, J. et al. 2014. Keeping up with video game technology: Objective analysis of Xbox Kinect™ and PlayStation 3 Move™ for use in burn rehabilitation. Burns: Journal of the International Society for Burn Injuries, 40(5): 852–859. [CrossRef]
  24. Shane, H.C. & Albert, P.D. 2008. Electronic screen media for persons with autism spectrum disorders: Results of a survey. Journal of Autism and Developmental Disorders, 38: 1499–1508. [CrossRef]
  25. Sehaba, K., Estraillier, P. & Lambert, D. 2005. Interactive educational games for autistic children with agent-based system. Lecture Notes in Computer Science, 3711: 422–432. [CrossRef]
  26. Silver, M. & Oakes, P. 2010. Evaluation of a new computer intervention to teach people with autism or Asperger syndrome to recognize and predict emotions in others. Autism, 5: 299–316. [CrossRef]
  27. Wainer, A.L. & Ingersoll, B.R. 2011. The use of innovative computer technology for teaching social communication to individuals with autism spectrum disorders. Research in Autism Spectrum Disorders, 5(1): 96–107. [CrossRef]
  28. Weiss, P.L., Rand, D. & Katz, N. et al. 2004. Video capture virtual reality as a flexible and effective rehabilitation tool. Neuroeng. Rehabil, 1: 12. [CrossRef]
  29. Winkels, D.G.M., Kottink, A.I.R. & Temmink, R.A.J. et al. 2013. Wii™-habilitation of upper extremity functions in children with Cerebral Palsy. An explorative study. Developmental Neurorehabilitation, 16: 44–51. [CrossRef]
  30. Yeung, L.F., Cheng, K.C. & Fong, C.H. et al. 2014. Evaluation of the Microsoft Kinect as a clinical assessment tool of body sway. Gait & posture. 40(4): 532–538. [CrossRef]
  31. Yeong, C.F., Melendez-Calderon, A. & Gassert, R. et al. 2009. ReachMAN: A personal robot to train reaching and manipulation. Intelligent Robots and Systems. IROS 2009. IEEE/RSJ International Conference on. pp: 4080–4085.

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