Abstract
Wearable accelerometers have recently become a standalone tool for the objective assessment of physical activity (PA). In free-living studies, accelerometers are placed by protocol on a pre-defined body location (e.g., non-dominant wrist). However, the protocol is not always followed, e.g., the sensor can be moved between wrists or reattached in a different orientation. Such protocol violations often result in PA miscalculation. We propose an approach, PLOE (“Placement, Location and Orientation Evaluation method”), to determine the sensor position using statistical features from the raw accelerometer measurements. We compare the estimated position with the study protocol and identify discrepancies. We apply PLOE to the measurements collected from 45 older adults who wore ActiGraph GT3X+ accelerometers on the left and right wrist for seven days. We found that 15.6% of participants who wore accelerometers violated the protocol for one or more days. The sensors were worn on the wrong hand during 6.9% of the days of simultaneous wearing of devices. During the periods of discrepancies, the daily PA was miscalculated by more than 20%. Our findings show that correct placement of the device has a significant effect on the PA estimates. These results demonstrate a need for the evaluation of sensor position.
Highlights
Accelerometers have become an increasingly popular tool for the objective assessment of physical activity (PA)
Forty-five community-dwelling older adults (23 men and 22 women) were recruited from the Pittsburgh, Pennsylvania area to participate in the Aging Research Evaluating Accelerometry (AREA)
We analyzed data from 45 participants who had complete accelerometry data acquired during the free-living activities over a 7-day time period
Summary
Accelerometers have become an increasingly popular tool for the objective assessment of physical activity (PA). We use accelerometers both for laboratory experiments and in a free-living environment. The latter is recognized as beneficial to studies considering the evaluation of human behavior [1]. Activity monitors are most frequently placed in a pre-defined position that remains the same during the measurement [6]. This requirement may not always be satisfied, e.g., the sensor can be moved from the left to the right wrist or reattached so that the device has the opposite orientation [7,8]. If left unaccounted for, these experimental protocol violations can lead to considerable PA miscalculation during the period of discrepancy [7,9]
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