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Effects of Frequency Filtering on Intensity and Noise in Accelerometer-Based Physical Activity Measurements.

Artikel i vetenskaplig tidskrift
Författare Jonatan Fridolfsson
Mats Börjesson
Christoph Buck
Örjan Ekblom
Elin Ekblom-Bak
Monica Hunsberger
Lauren Lissner
Daniel Arvidsson
Publicerad i Sensors (Basel, Switzerland)
Volym 19
Nummer/häfte 9
ISSN 1424-8220
Publiceringsår 2019
Publicerad vid Institutionen för medicin, avdelningen för samhällsmedicin och folkhälsa
Institutionen för neurovetenskap och fysiologi
Institutionen för kost- och idrottsvetenskap
Språk en
Länkar dx.doi.org/10.3390/s19092186
www.ncbi.nlm.nih.gov/entrez/query.f...
Ämneskategorier Idrottsvetenskap, Näringslära, Folkhälsovetenskap, Signalbehandling

Sammanfattning

In objective physical activity (PA) measurements, applying wider frequency filters than the most commonly used ActiGraph (AG) filter may be beneficial when processing accelerometry data. However, the vulnerability of wider filters to noise has not been investigated previously. This study explored the effect of wider frequency filters on measurements of PA, sedentary behavior (SED), and capturing of noise. Apart from the standard AG band-pass filter (0.29-1.63 Hz), modified filters with low-pass component cutoffs at 4 Hz, 10 Hz, or removed were analyzed. Calibrations against energy expenditure were performed with lab data from children and adults to generate filter-specific intensity cut-points. Free-living accelerometer data from children and adults were processed using the different filters and intensity cut-points. There was a contribution of acceleration related to PA at frequencies up to 10 Hz. The contribution was more pronounced at moderate and vigorous PA levels, although additional acceleration also occurred at SED. The classification discrepancy between AG and the wider filters was small at SED (1-2%) but very large at the highest intensities (>90%). The present study suggests an optimal low-pass frequency filter with a cutoff at 10 Hz to include all acceleration relevant to PA with minimal effect of noise.

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