Abstract
This study proposes an action identification system for home upper extremity rehabilitation. In the proposed system, we apply an RGB-depth (color-depth) sensor to capture the image sequences of the patient’s upper extremity actions to identify its movements. We apply a skin color detection technique to assist with extremity identification and to build up the upper extremity skeleton points. We use the dynamic time warping algorithm to determine the rehabilitation actions. The system presented herein builds up upper extremity skeleton points rapidly. Through the upper extremity of the human skeleton and human skin color information, the upper extremity skeleton points are effectively established by the proposed system, and the rehabilitation actions of patients are identified by a dynamic time warping algorithm. Thus, the proposed system can achieve a high recognition rate of 98% for the defined rehabilitation actions for the various muscles. Moreover, the computational speed of the proposed system can reach 125 frames per second—the processing time per frame is less than 8 ms on a personal computer platform. This computational efficiency allows efficient extensibility for future developments to deal with complex ambient environments and for implementation in embedded and pervasive systems. The major contributions of the study are: (1) the proposed system is not only a physical exercise game, but also a movement training program for specific muscle groups; (2) The hardware of upper extremity rehabilitation system included a personal computer with personal computer and a depth camera. These are economic equipment, so that patients who need this system can set up one set at home; (3) patients can perform rehabilitation actions in sitting position to prevent him/her from falling down during training; (4) the accuracy rate of identifying rehabilitation action is as high as 98%, which is sufficient for distinguishing between correct and wrong action when performing specific action trainings; (5) The proposed upper extremity rehabilitation system is real-time, efficient to vision-based action identification, and low-cost hardware and software, which is affordable for most families.
Highlights
Telemedicine and home-care systems have become the trend because of the integration of technology into the practice of medicine [1,2,3,4,5]
The major contributions of the study are: (1) the proposed system is a physical exercise game, and a movement training program for specific muscle groups; (2) The hardware of upper Extremity Rehabilitation System included a personal computer with personal computer and a depth camera. These are economic equipment, so that patients who need this system can set up one set at home; (3) patients can perform rehabilitation actions in sitting position to prevent him/her from falling down during training; (4) the accuracy rate of identifying rehabilitation action is as high as 98%, which is sufficient for distinguishing between correct and wrong action when performing specific action trainings; (5) The proposed upper extremity rehabilitation system is real-time, efficient to vision-based action identification, and low-cost hardware and software, which is affordable for most families
This study proposed an action identification system for daily home upper extremity rehabilitation
Summary
Telemedicine and home-care systems have become the trend because of the integration of technology into the practice of medicine [1,2,3,4,5]. If technology products are easy to operate, patients or caregivers can conveniently perform daily self-care activities at home by themselves. This can improve the time spent on patient care, the quality of care, and the therapeutic benefits of care. Telemedicine and home care systems can reduce the costs and time associated with transportation between the hospital and home for follow-up care or treatment [6,7,8,9]. If an efficient rehabilitation system can be designed for use at home that helps patients to perform the movements that they must perform repeatedly every day to maintain their mobility and physical function, with such a system, transportation challenges and costs are eliminated. Transportation burdens are reduced, families have more time, and exercises can be more frequently performed
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
