Automatic identification of physical activity types and sedentary behaviors from triaxial accelerometer: laboratory-based calibrations are not enough
Résumé
"Objective” methods to monitor
physical activity and sedentary patterns in free-living conditions
are necessary to further our understanding of their impacts on health.
In recent years, many software solutions capable of automatically
identifying activity types from portable accelerometry data have been
developed, with promising results in controlled conditions, but virtually
no reports on field tests. An automatic classification algorithm
initially developed using laboratory-acquired data (59 subjects engaging
in a set of 24 standardized activities) to discriminate between 8
activity classes (lying, slouching, sitting, standing, walking, running,
and cycling) was applied to data collected in the field. Twenty
volunteers equipped with a hip-worn triaxial accelerometer performed
at their own pace an activity set that included, among others, activities
such as walking the streets, running, cycling, and taking the bus.
Performances of the laboratory-calibrated classification algorithm
were compared with those of an alternative version of the same model
including field-collected data in the learning set. Despite good results
in laboratory conditions, the performances of the laboratory-calibrated
algorithm (assessed by confusion matrices) decreased for several
activities when applied to free-living data. Recalibrating the algorithm
with data closer to real-life conditions and from an independent group
of subjects proved useful, especially for the detection of sedentary
behaviors while in transports, thereby improving the detection of
overall sitting (sensitivity: laboratory model 24.9%; recalibrated
model 95.7%). Automatic identification methods should be developed
using data acquired in free-living conditions rather than data
from standardized laboratory activity sets only, and their limits carefully
tested before they are used in field studies.