DocumentCode
1493377
Title
A Real-Time and Self-Calibrating Algorithm Based on Triaxial Accelerometer Signals for the Detection of Human Posture and Activity
Author
Curone, Davide ; Bertolotti, Gian Mario ; Cristiani, Andrea ; Secco, Emanuele Lindo ; Magenes, Giovanni
Author_Institution
Eur. Centre for Training & Res. in Earthquake Eng., Pavia, Italy
Volume
14
Issue
4
fYear
2010
fDate
7/1/2010 12:00:00 AM
Firstpage
1098
Lastpage
1105
Abstract
Assessment of human activity and posture with triaxial accelerometers provides insightful information about the functional ability: classification of human activities in rehabilitation and elderly surveillance contexts has been already proposed in the literature. In the meanwhile, recent technological advances allow developing miniaturized wearable devices, integrated within garments, which may extend this assessment to novel tasks, such as real-time remote surveillance of workers and emergency operators intervening in harsh environments. We present an algorithm for human posture and activity-level detection, based on the real-time processing of the signals produced by one wearable triaxial accelerometer. The algorithm is independent of the sensor orientation with respect to the body. Furthermore, it associates to its outputs a “reliability” value, representing the classification quality, in order to launch reliable alarms only when effective dangerous conditions are detected. The system was tested on a customized device to estimate the computational resources needed for real-time functioning. Results exhibit an overall 96.2% accuracy when classifying both static and dynamic activities.
Keywords
accelerometers; biomechanics; calibration; geriatrics; medical signal processing; signal classification; surveillance; classification; elderly surveillance; human activity; human posture; miniaturized wearable devices; real-time processing; rehabilitation; self-calibrating algorithm; triaxial accelerometer signals; Activity and posture monitoring; real-time movement classification; triaxial accelerometer; wearable device; Algorithms; Humans; Posture;
fLanguage
English
Journal_Title
Information Technology in Biomedicine, IEEE Transactions on
Publisher
ieee
ISSN
1089-7771
Type
jour
DOI
10.1109/TITB.2010.2050696
Filename
5466127
Link To Document