A real-time system with assistive feedback for postural control in rehabilitation

IEEE/ASME Transactions on Mechatronics

Volumn 15, Issue 2, 2010, Pages 226-233

  Alahakone, Aruni U ^a   Senanayake, S M N Arosha ^a  

^a MONASH UNIVERSITY MALAYSIA   (Malaysia)

Author keywords

Hardware software co design; Inertial sensors; Postural control; Vibrotactile biofeedback; Virtual instrumentation

Indexed keywords

HARDWARE/SOFTWARE CO-DESIGN; INERTIAL SENSOR; POSTURAL CONTROL; VIBROTACTILE; VIBROTACTILE BIOFEEDBACK; VIRTUAL INSTRUMENTATION;

ANGLE MEASUREMENT; CONTROL; DATA PROCESSING; INERTIAL NAVIGATION SYSTEMS; INSTRUMENTS; MEASUREMENTS; REAL TIME SYSTEMS; SMART SENSORS;

BIOFEEDBACK;

EID: 77950593986     PISSN: 10834435     EISSN: None     Source Type: Journal    
DOI: 10.1109/TMECH.2010.2041030     Document Type: Article

References (34)

1. M. Dozza, C. Wall, III, R. J. Peterka, L. Chiari, and B. F. Horak, "Effects of practicing tandem gait with and without vibrotactile biofeedback in subjects with unilateral vestibular loss," J. Vestib. Res., vol.17, no.4, pp. 195-204, 2007.
2. M. Dozza, "Biofeedback systems for human postural control," Ph.D. thesis, BioEngineering, Dept. Electron., Comput. Sci. Syst., Univ. Di Bologna, Bologna, Italy.
3. B. D. Wilson, S. M. N. A. Senanayake, and A. W.W. Yuen, "Accelerometry in motion analysis," in The Impact of Technology on Sport II. London, U.K.: Taylor & Francis, 2007, pp. 479-484.
4. A. A. Gopalai, D. Gouwanda, and S. M. N. A. Senanayake, "Human motion regeneration in 2 dimensions as stick figure animation with accelerometers," Int. J. Intell. Syst. Technol., vol.3, no.3, pp. 138-148, 2008.
5. D. Gouwanda, K. B. How, S. M. N. A. Senanayake, F. K. Fuss, A. Subic, and S. Ujihashi, "A portable vertical jump analysis system," in The Impact of Technology on Sports II. London, U.K.: Taylor & Francis, 2007, pp. 637-642.
6. S. M. N. A. Senanayake and A. A. Bakar, "Intelligent system for soccer gait pattern recognition," in The Impact of Technology on Sport II. London, U.K.: Taylor & Francis, 2007, pp. 415-420.
7. G.Wu, "Real-time feedback of body center of gravity for postural training of elderly patients with peripheral neuropathy," IEEE Trans. Rehabil. Eng., vol.5, no.4, pp. 399-402, Dec. 1997.
8. R. Sharma, S. N. Romi, and R. K. Srivastava, "An objective approach for assessment of balance disorders and role of visual biofeedback training in the treatment of balance disorders," Indian J. Phys. Med. Rehabil. (IJPMR), vol.12, pp. 25-30, 2001.
9. R. A. Geiger, J. B. Allen, J. O'Keefe, and R. R. Hicks, "Balance and mobility following stroke: Effects of physical therapy interventions with and without biofeedback/forceplate training," Phys. Ther., vol.81, no.4, pp. 995-1005, 2001.
10. S. N. Omkar and D. K. Ganesh, "Stability training and measurement system for sportsperson," The Engineering of Sport 7. Paris, France: Springer, pp. 435-442, 2008.
11. M. Y. Lee, C. F. Lin, and K. S. Soon, "Balance control enhancement using sub-sensory stimulation and visual-auditory biofeedback strategies for amputee subjects," Prosthet Orthot. Int., vol.31, no.4, pp. 342-352, 2007.
12. R. D. Easton, A. J. Greene, P. DiZio, and J. R. Lackner, "Auditory cues for orientation and postural control in sighted and congenitally blind people," Exp. Brain Res., vol.118, no.4, pp. 541-550, 1998.
13. E. Dursun, N. Hamamci, S. Donmez, O. Tuzunalp, and A. Cakci, "Angular biofeedback device for sitting balance of stroke patients," Stroke, vol.27, pp. 1354-1357, 1996.
14. D. Brunelli, E. Farella, L. Rocchi, M. Dozza, L. Chiari, and L. Benini, "Bio-feedback system for rehabilitation based on a wireless body area network," in Proc. 4th Annu. IEEE Int. Conf. Pervasive Comput. Commun. Workshops, 2006, pp. 527-531. (Pubitemid 44612637)
15. M. Dozza, C. Lorenzo, and F. B. Horak, "Audio-biofeedback improves balance in patients with bilateral vestibular loss," Arch. Phys. Med. Rehabil., vol.86, pp. 1401-1403, 2005.
16. M. Dozza, C. Lorenzo, B. Chan, L. Rocchi, F. B. Horak, and A. Cappello, "Influence of a portable audio-biofeedback device on structural properties of postural sway," J. Neuroeng. Rehabil., vol.2:13, 2005.
17. J. Hegeman, F. Honegger, M. Kupper, and J. H. Allum, "The balance control of bilateral peripheral vestibular loss subjects and its improvement with auditory prosthetic feedback," J. Vestib. Res., vol.15, no.2, pp. 109-117, 2005.
18. M. A. G. Alonso, F. Vexo, and D. Thalmann, Stepping Into Virtual Reality: A Practical Approach. New York: Springer-Verlag, 2008, p. 151.
19. A. U. Alahakone and S. M. N. A. Senanayake, "Vibrotactile feedback systems: Current trends in rehabilitation, sports and information display," in Proc. IEEE/ASME Int. Conf. Adv. Intell. Mechatronics, 2009, pp. 1148-1152.
20. J. B. F.Van Erp,H.A.H.C. vanVeen, and C. Jansen, "Waypoint navigation with a vibrotactile waist belt," ACM Trans. Appl. Percept.(TAP), vol.2, no.2, pp. 106-117, 2005.
21. T. Nojima and K. Funabiki, "Cockpit display using tactile sensation," in Proc. Eurohaptics Conf. Symp. Haptic Interfaces Virtual Environ. Teleoperator Syst., World Haptics, 2005, pp. 501-502.
22. S. Y. Kim, K. Y. Kim, B. S. Soh, G. Yang, and S. R. Kim, "Vibrotactile rendering for simulating virtual environment in a mobile game," IEEE Trans. Consum. Electron., vol.52, no.4, pp. 1340-1347, Nov. 2006.
23. J. B. F. van Erp, I. Saturday, and C. Jansen, "Application of tactile displays in sports: Where to, now and when to move," in Proc. EuroHaptics Int. Conf., 2006, pp. 90-95.
24. J. Lieberman and C. Breazeal, "TIKL: Development of a wearable vibrotactile feedback suit for improved human motor learning," IEEE Trans. Robot., vol.23, no.5, pp. 919-926, Oct. 2007. (Pubitemid 47577968)
25. R. A. Reader, "Detecting knee hyperextensions using goniometric inclinometer sensing with vibrotactile feedback," in Proc. IEEE Instrum. Meas. Technol. Conf., 1998, vol.2, pp. 863-867.
26. C. Wall, M. S. Weinberg, P. B. Schmidt, and D. E. Krebs, "Balance prosthesis based on micromechanical sensors using vibrotactile feedback of tilt," IEEE Trans. Biomed. Eng., vol.48, no.10, pp. 1153-1161, Oct. 2001.
27. P. P. Kadkade, B. J. Benda, P. B. Schmidt, and C. Wall, "Vibrotactile Display coding for a balance prosthesis," IEEE Trans. Neural Syst. Rehabil. Eng., vol.11, no.4, pp. 392-399, Dec. 2003.
28. F. Asseman, A. M. Bronstein, and M. A. Gresty, "Using vibrotactile feedback of instability to trigger a forward compensatory stepping response," J. Neurol., vol.254, no.11, pp. 1555-1561, 2007.
29. A. D. Goodworth, C.Wall, and R. J. Peterka, "Application of optimization methods to predict performance of a vibrotactile balance prosthesis," in Proc. 3rd Int. IEEE/EMBS Conf. Neural Eng., 2007, pp. 510-513.
30. E. Kentala, J. Vivas, and C. Wall, "Reduction of postural sway by use of a vibrotactile balance prosthesis protot ype in subjects with vestibular deficits," Ann. Otol., Rhinol. Laryngol., vol.112, pp. 404-409, 2003.
31. R. W. Lindeman, Y. Yanagida, K. Hosaka, and S. Abe, "The TactaPack: A wireless sensor/actuator package for physical therapy applications," in Proc. Symp. Haptic Interfaces Virtual Environ. Teleoperator Syst., 2006, pp. 337-341. (Pubitemid 44733192)
32. F. Uri, R. Liat, H. Jane, J. Naomi, K. Noomi, K. Rachel, R. Debbie, R. A. Skip, S. Meir, Y. Jang, and W. P. L. Tamar, "Integrating haptic-tactile feedback into a video-capture-based virtual environment for rehabilitation, " Cyber Psychol. Behavior: The Impact Internet, Multimedia Virtual Reality Behavior Soc., vol.9, no.2, pp. 129-132, 2006.
33. R. F. Boian, J. E. Deutsch, G. C. C. S. L. Burdea, and J. Lewis, "Haptic effects for virtual reality-based post-stroke rehabilitation," in Proc. 11th Symp. Haptic Interfaces Virtual Environ. Teleoperator Syst., 2003, pp. 247-253.
34. E. Rabin, S. B. Bortolami, P. DiZio, and J.R.Lackner, "Haptic stabilization of posture: Changes in arm proprioception and cutaneous feedback for different arm orientations," J. Neurophysiol., vol.82, pp. 3541-3549, 1999.