Virtual Environments for Hand Rehabilitation with Force Feedback

Within recent years, an increasing number of researches that leverage virtual reality VR applications to improve motor rehabilitation have been conducted. These computer-based tools to various degrees help with motor rehabilitation for hand/arm impairment. Compared to the conventional therapy, people are more engaged and interested when they are being trained with the VR, leading to equal or higher improvements in terms of functional use of the hand/arm. In this paper, a VR-based platform for hand/arm rehabilitation is developed using delta3d, an open-source game and simulation engine of high-level interfaces to graphics and physics libraries. The platform provides not only visual information but also force feedback to users. Contrasted to previous similar researches, the contact force is directly extracted from the physics engine through virtual sensors. The effectiveness of virtual sensors is experimentally validated, and the relationship between joint angles and contact forces over time is presented. Finally, a training paradigm for hand impairment patients is proposed for future validation.

[1]  Robert D. Lipschutz,et al.  Targeted muscle reinnervation for real-time myoelectric control of multifunction artificial arms. , 2009, JAMA.

[2]  Maureen K. Holden,et al.  Virtual Environments for Motor Rehabilitation: Review , 2005, Cyberpsychology Behav. Soc. Netw..

[3]  G.C. Burdea,et al.  Virtual reality-enhanced stroke rehabilitation , 2001, IEEE Transactions on Neural Systems and Rehabilitation Engineering.

[4]  Heidi Sveistrup,et al.  Motor rehabilitation using virtual reality , 2004, Journal of NeuroEngineering and Rehabilitation.

[5]  Dylan A. Shell,et al.  Extending Open Dynamics Engine for Robotics Simulation , 2010, SIMPAR.

[6]  John M. Hsu,et al.  Extending Open Dynamics Engine for the DARPA Virtual Robotics Challenge , 2014, SIMPAR.

[7]  Albert A. Rizzo,et al.  Interactive game-based rehabilitation using the Microsoft Kinect , 2012, 2012 IEEE Virtual Reality Workshops (VRW).

[8]  M. Hauschild,et al.  A Virtual Reality Environment for Designing and Fitting Neural Prosthetic Limbs , 2007, IEEE Transactions on Neural Systems and Rehabilitation Engineering.

[9]  Grigore C. Burdea,et al.  A virtual-reality-based telerehabilitation system with force feedback , 2000, IEEE Transactions on Information Technology in Biomedicine.

[10]  Paolo Bonato,et al.  JNER: a forum to discuss how neuroscience and biomedical engineering are reshaping physical medicine & rehabilitation , 2004, Journal of NeuroEngineering and Rehabilitation.

[11]  Ana Maria Acosta,et al.  Pilot study to test effectiveness of video game on reaching performance in stroke. , 2011, Journal of rehabilitation research and development.

[12]  Robert F Kirsch,et al.  Virtual Reality Environment for Simulating Tasks With a Myoelectric Prosthesis: An Assessment and Training Tool , 2011, Journal of prosthetics and orthotics : JPO.

[13]  Albert A. Rizzo,et al.  Development and evaluation of low cost game-based balance rehabilitation tool using the microsoft kinect sensor , 2011, 2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.