REAL TIME BIOSIGNAL-DRIVEN ILLUSION SYSTEM FOR UPPER LIMB REHABILITATION

Yee Mon Aung, Adel Al-Jumaily

View Full Paper

References

  1. [1] National Stroke Foundation-Australia. (2014, March).Facts and Figures about Stroke. Available:https://strokefoundation.com.au/health-professionals/tools-and-resources/facts-and-figures-about-stroke/
  2. [2] K. Kiguchi and Y. Hayashi, "An EMG-Based Controlfor an Upper-Limb Power-Assist Exoskeleton Robot,"Systems, Man, and Cybernetics, Part B: Cybernetics,IEEE Transactions on, vol. 42, pp. 1064-1071, 2012.
  3. [3] H.-D. Lee, B.-K. Lee, W.-S. Kim, J.-S. Han, K.-S.Shin, and C.-S. Han, "Human–robot cooperation controlbased on a dynamic model of an upper limb exoskeletonfor human power amplification," Mechatronics, vol. 24,pp. 168-176, 2014.
  4. [4] J.-H. Shin, H. Ryu, and S. H. Jang, "A task-specificinteractive game-based virtual reality rehabilitationsystem for patients with stroke: a usability test and twoclinical experiments," Journal of NeuroEngineering andRehabilitation, vol. 11, p. 32, 2014.
  5. [5] Y. M. Aung and A. Al-Jumaily, "Development ofAugmented Reality Rehabilitation Games Integrated withBiofeedback for Upper Limb," in 5th InternationalConvention on Rehabilitation Engineering & AssistiveTechnology, Bangkok, Thailand, 2011.
  6. [6] Y. M. Aung and A. Al-Jumaily, "Augmented RealityBased Reaching Exercise for Shoulder Rehabilitation," in5th International Convention on RehabilitationEngineering & Assistive Technology, Bangkok, Thailand,2011.
  7. [7] M. Sha, M. Varley, S. Lik-Kwan, and J. Richards,"EMG Biofeedback Based VR System for Hand Rotationand Grasping Rehabilitation," in InformationVisualisation (IV), 2010 14th International Conference,2010, pp. 479-484.
  8. [8] Y. M. Aung and A. Al-Jumaily, "Augmented reality-based RehaBio system for shoulder rehabilitation,"International Journal of Mechatronics and Automation,vol. 4, pp. 52-62, 2014.
  9. [9] L. M. Vaca Benitez, M. Tabie, N. Will, S. Schmidt,M. Jordan, and E. A. Kirchner, "Exoskeleton Technologyin Rehabilitation: Towards an EMG-Based OrthosisSystem for Upper Limb Neuromotor Rehabilitation,"Journal of Robotics, vol. 2013, p. 13, 2013.
  10. [10] B. C. Tsai, W. W. Wang, L. C. Hsu, L. C. Fu, and J.S. Lai, "An articulated rehabilitation robot for upper limbphysiotherapy and training," in Intelligent Robots andSystems (IROS), 2010 IEEE/RSJ International Conferenceon, 2010, pp. 1470-1475.
  11. [11] J. Foell, R. Bekrater Bodmann, M. Diers, and H.Flor, "Mirror therapy for phantom limb pain: Brainchanges and the role of body representation," EuropeanJournal of Pain, 2014.
  12. [12] J. Trojan, M. Diers, X. Fuchs, F. Bach, R. Bekrater-Bodmann, J. Foell, S. Kamping, M. Rance, H. Maaß, andH. Flor, "An augmented reality home-training systembased on the mirror training and imagery approach,"Behavior Research Methods, pp. 1-7, 2013/12/13 2013.
  13. [13] A. Reinersmann, J. Landwehrt, E. K. Krumova, J.Peterburs, S. Ocklenburg, O. Güntürkün, and C. Maier,"The rubber hand illusion in complex regional painsyndrome: Preserved ability to integrate a rubber handindicates intact multisensory integration," PAIN, vol. 154,pp. 1519-1527, 2013.
  14. [14] H. Regenbrecht, S. Hoermann, G. McGregor, B.Dixon, E. Franz, C. Ott, L. Hale, T. Schubert, and J.Hoermann, "Visual manipulations for motorrehabilitation," Computers & Graphics, vol. 36, pp. 819-834, 2012.
  15. [15] C.-Y. Wu, P.-C. Huang, Y.-T. Chen, K.-C. Lin, andH.-W. Yang, "Effects of Mirror Therapy on Motor andSensory Recovery in Chronic Stroke: A RandomizedControlled Trial," Archives of Physical Medicine andRehabilitation, vol. 94, pp. 1023-1030, 2013.
  16. [16] Thought Techonology. (2014, March).FlexComp Infiniti. Available:http://www.thoughttechnology.com/
  17. [17] Y. M. Aung and A. Al-Jumaily, "IllusionApproach for Upper Limb Motor Rehabilitation," inInternational Congress on Neurotechnology, Electronicsand Informatics (NEUROTECHNIX 2013), Vilamoura,Algarve, Portugal, 2013, pp. 99-105.
  18. [18] L. W. Pedretti, Occupational Therapy: practice skillsfor physical dysfunction, 2nd ed.: Mosby, 1985.
  19. [19] H. Desurvire, M. Caplan, and J. A. Toth, "Usingheuristics to evaluate the playability of games," in CHI'04 Extended Abstracts on Human Factors in ComputingSystems, Vienna, Austria, 2004, pp. 1509-1512.
  20. [20] Y. M. Aung and A. Al-Jumaily, "Shoulderrehabilitation with biofeedback simulation," in 2012International Conference on Mechatronics andAutomation (ICMA), Chengdu, China, 2012, pp. 974-979.

Important Links:

Go Back