Author_Institution :
Comput. Sci. & Eng. Dept., SUNY, Buffalo, NY, USA
Abstract :
Sitting posture analysis is widely applied in many daily applications in biomedical, education, and health care domains. It is interesting to monitor sitting postures in an economic and comfortable manner. Accordingly, we present a textile-based sensing system, called Smart Cushion, which analyzes the sitting posture of human being accurately and non-invasively. First, we introduce the electrical textile sensor and its electrical characteristics, such as offset, scaling, crosstalk, and rotation. Second, we present the design and implementation of the Smart Cushion system. Several effective techniques have been proposed to improve the recognition rate of sitting postures, including sensor calibration, data representation, and dynamic time warping-based classification. Last, our experimental results show that the recognition rate of our Smart Cushion system is in excess of 85.9%.
Keywords :
calibration; data structures; electric sensing devices; ergonomics; pressure sensors; sensor arrays; textiles; biomedical domain; crosstalk; data representation; dynamic time warping-based classification; eCushion; education domain; electrical textile pressure sensor array design; health care domain; sensor calibration; sitting posture monitoring analysis; sitting posture recognition rate; smart cushion system; Textile; calibration; cushion; non-invasive; pressure sensor; sitting posture;
