Abstract
This paper proposes a model for recognizing motions performed during rehabilitation exercises for frozen shoulder conditions. The model consists of wearable wireless sensor network (WSN) inertial sensor nodes, which were developed for this study, and enables the ubiquitous measurement of bodily motions. The model employs the back propagation neural network (BPNN) algorithm to compute motion data that are formed in the WSN packets; herein, six types of rehabilitation exercises were recognized. The packets sent by each node are converted into six components of acceleration and angular velocity according to three axes. Motor features such as basic acceleration, angular velocity, and derivative tilt angle were input into the training procedure of the BPNN algorithm. In measurements of thirteen volunteers, the accelerations and included angles of nodes were adopted from possible features to demonstrate the procedure. Five exercises involving simple swinging and stretching movements were recognized with an accuracy of 85%–95%; however, the accuracy with which exercises entailing spiral rotations were recognized approximately 60%. Thus, a characteristic space and enveloped spectrum improving derivative features were suggested to enable identifying customized parameters. Finally, a real-time monitoring interface was developed for practical implementation. The proposed model can be applied in ubiquitous healthcare self-management to recognize rehabilitation exercises.
Highlights
The rapid innovations in information technology have promoted studies investigating human movements
This study suggested a motion-recognition model including wearable wireless sensor network (WSN) inertial sensor node (ISN) that transfer signals regarding acceleration and angular velocity in three directions as well as designing up-limb exercises that assist in frozen shoulder rehabilitation
Wearable WSN-based ISNs were incorporated with a back propagation neural network (BPNN) algorithm in an activity recognition model to recognize six types of rehabilitation exercises applied in frozen shoulder therapy
Summary
The rapid innovations in information technology have promoted studies investigating human movements. Techniques for detecting bodily motions are widely applied in healthcare to ubiquitously monitor and rehabilitate disabled patients. Previous studies on motion analysis have involved tracking parts of a moving body by calculating data on image sequences of bodily movements [1]. Many vision-based approaches were implemented to classify large scale bodily motions, including movements of the head, arms, torso, or legs [2]. Computational algorithms have enabled image analyses of bodily gestures and were used in supporting the assistant interfaces, such as healthcare monitoring systems [3]. Non-imaged tracking procedures were employed in systems for monitoring bodily motions [4]
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