DocumentCode
141476
Title
Inertial measurements of free-living activities: Assessing mobility to predict falls
Author
Kejia Wang ; Lovell, Nigel H. ; Del Rosario, Michael B. ; Ying Liu ; Jingjing Wang ; Narayanan, Michael R. ; Brodie, Matthew A. D. ; Delbaere, Kim ; Menant, Jasmine ; Lord, Stephen R. ; Redmond, Stephen J.
Author_Institution
Grad. Sch. of Biomed. Eng., UNSW, Sydney, NSW, Australia
fYear
2014
fDate
26-30 Aug. 2014
Firstpage
6892
Lastpage
6895
Abstract
An exploratory analysis was conducted into how simple features, from acceleration at the lower back and ankle during simulated free-living walking, stair ascent and descent, correlate with age, the overall fall risk from a clinically validated Physiological Profile Assessment (PPA), and its sub-components. Inertial data were captured from 92 older adults aged 78-95 (42 female, mean age 84.1, standard deviation 3.9 years). The dominant frequency, peak width from Welch´s power spectral density estimate, and signal variance along each axis, from each sensor location and for each activity were calculated. Several correlations were found between these features and the physiological risk factors. The strongest correlations were from the dominant frequency at the ankle along the mediolateral direction during stair ascent (Spearman´s correlation coefficient p = - 0.45) with anterioposterior sway, and signal variance of the anterioposterior acceleration at the lower back during stair descent (p = - 0.45) with age. These findings should aid future attempts to classify activities and predict falls in older adults, based on true free-living data from a range of activities.
Keywords
accelerometers; biomedical measurement; correlation methods; gait analysis; geriatrics; inertial systems; medical signal processing; spectral analysis; PPA; Physiological Profile Assessment; Spearman´s correlation coefficient; Welch´s power spectral density estimate; age; ankle; anterioposterior acceleration; anterioposterior sway; dominant frequency; exploratory analysis; free-living activities; free-living data; inertial data; inertial measurements; lower back; mediolateral direction; mobility; overall fall risk; peak width; physiological risk factors; sensor location; signal variance; simulated free-living walking; stair ascent; stair descent; subcomponents; Acceleration; Australia; Correlation; Elevators; Knee; Legged locomotion; Reactive power;
fLanguage
English
Publisher
ieee
Conference_Titel
Engineering in Medicine and Biology Society (EMBC), 2014 36th Annual International Conference of the IEEE
Conference_Location
Chicago, IL
ISSN
1557-170X
Type
conf
DOI
10.1109/EMBC.2014.6945212
Filename
6945212
Link To Document