A Microsoft Kinect Based Virtual Rehabilitation System

Virtual reality technology is currently widely applied in physical rehabilitation therapy. The ability to track joint positions for Microsoft Kinect might be useful for rehabilitation, both in clinical setting and at home. Currently, most systems developed for virtual rehabilitation and motor training require quite complex and expensive hardware and can be used only in clinical settings. Now, a low-cost rehabilitation game training system has been developed for patients with movement disorders, it is suitable for home use under the distant supervision of a therapist. This research explores the potential and the limitations of the Kinect in the application of e-rehabilitation. Commercial Kinect games present disadvantages that are mainly bounded to the fact that they are not developed for rehabilitation purposes. We evaluated the tools that could be used to help promote physical rehabilitation at home by reducing the frequency of hospital visits, resulting in the reduction of healthcare cost. A prototypic system has been developed for the evaluation of 5 different games, which are useful for e-rehabilitation. As we see from the result, it indicated a slightly positive outcome for the patients after got involved the treatment. Also the questionnaire outcome reveals that the designed exercises were perceived as effective and easy in operation.

[1]  J. Deutsch,et al.  Use of a Low-Cost, Commercially Available Gaming Console (Wii) for Rehabilitation of an Adolescent With Cerebral Palsy , 2008, Physical Therapy.

[2]  BoianRares,et al.  A virtual reality-based exercise system for hand rehabilitation post-stroke , 2005 .

[3]  A. Dhar,et al.  National Institute for Health and Clinical Excellence , 2005 .

[4]  G. Burdea Virtual Rehabilitation - Benefits and Challenges , 2003, Yearbook of Medical Informatics.

[5]  James R. Parker,et al.  A Comparison of Exergaming Interfaces for Use in Rehabilitation Programs and Research , 2012 .

[6]  Jarrett Webb,et al.  Beginning Kinect Programming with the Microsoft Kinect SDK , 2012, Apress.

[7]  D M Macgregor,et al.  Nintendonitis? a Case Report of Repetitive Strain Injury in a Child as a Result of Playing Computer Games , 2000, Scottish medical journal.

[8]  Hamid Bateni,et al.  Changes in balance in older adults based on use of physical therapy vs the Wii Fit gaming system: a preliminary study. , 2012, Physiotherapy.

[9]  Yao-Jen Chang,et al.  A Kinect-based system for physical rehabilitation: a pilot study for young adults with motor disabilities. , 2011, Research in developmental disabilities.

[10]  John W. Sperling,et al.  Magnetic resonance imaging of acute “wiiitis” of the upper extremity , 2008, Skeletal Radiology.

[11]  Dorothy Sparks,et al.  Wii have a problem: a review of self-reported Wii related injuries. , 2009, Informatics in primary care.

[12]  Hui Ting Chan,et al.  Minimum amount of physical activity for reduced mortality and extended life expectancy: a prospective cohort study , 2011, The Lancet.

[13]  J. W. Burke,et al.  Vision Based Games for Upper-Limb Stroke Rehabilitation , 2008, 2008 International Machine Vision and Image Processing Conference.

[14]  Mark Bolas,et al.  Virtual Reality and Interactive Digital Game Technology: New Tools to Address Obesity and Diabetes , 2011, Journal of diabetes science and technology.

[15]  Alessandro De Mauro,et al.  Virtual Reality Based Rehabilitation and Game Technology , 2011, EICS4Med.

[16]  Larry F. Hodges,et al.  A Virtual Environment for Post-Stroke Motor Rehabilitation , 2011 .

[17]  T H Koh Ulcerative “nintendinitis”: a new kind of repetitive strain injury , 2000, The Medical journal of Australia.

[18]  Philippe Fraisse,et al.  Center of Mass Estimation for In-home Rehabilitation - Kinect-Wii board vs. Vicon-Force plate , 2012 .

[19]  K. Willett,et al.  Wii-habilitation: is there a role in trauma? , 2010, Injury.

[20]  Julio Bonis Acute Wiiitis. , 2007, The New England journal of medicine.

[21]  Gareth Stratton,et al.  Energy expenditure in adolescents playing new generation computer games , 2008, BMJ : British Medical Journal.

[22]  A. Astrup,et al.  Modern sedentary activities promote overconsumption of food in our current obesogenic environment , 2011, Obesity reviews : an official journal of the International Association for the Study of Obesity.

[23]  Robert J. Stone,et al.  Applications of Virtual Environments: An Overview , 2014, Handbook of Virtual Environments, 2nd ed..

[24]  John P Buckley,et al.  Physiologic responses and energy expenditure of kinect active video game play in schoolchildren. , 2012, Archives of pediatrics & adolescent medicine.

[25]  Jeffrey A. Lewis,et al.  Virtual Reality-based System for Ankle Rehabilitation Post Stroke , 2002 .

[26]  Bruno Herbelin,et al.  Customization of gaming technology and prototyping of rehabilitation applications , 2008 .