Systematic review of best practices for GPS data usage, processing, and linkage in health, exposure science and environmental context research

Pearson, Amber L; Tribby, Calvin; Brown, Catherine D; Yang, Jiue-An; Pfeiffer, Karin; Jankowska, Marta M

doi:10.1136/bmjopen-2023-077036

BMJ Open

2024

DOI: 10.1136/bmjopen-2023-077036

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Systematic review of best practices for GPS data usage, processing, and linkage in health, exposure science and environmental context research

Amber L Pearson,

Calvin Tribby,

Catherine D Brown

et al.

Abstract: Global Positioning System (GPS) technology is increasingly used in health research to capture individual mobility and contextual and environmental exposures. However, the tools, techniques and decisions for using GPS data vary from study to study, making comparisons and reproducibility challenging.ObjectivesThe objectives of this systematic review were to (1) identify best practices for GPS data collection and processing; (2) quantify reporting of best practices in published studies; and (3) discuss examples f… Show more

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Cited by 2 publications

References 199 publications

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Outdoor physical activity is not associated with better mental health in a sample of predominantly Black people, but spending time in parks is

Pearson,

Liu,

Lin

et al. 2024

Urban Forestry & Urban Greening

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Outdoor physical activity is not associated with better mental health in a sample of predominantly Black people, but spending time in parks is

Pearson,

Liu,

Lin

et al. 2024

Urban Forestry & Urban Greening

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Extent and Impact of Accelerometer Time Drift on Linkage With Global Positioning System Data for Physical Activity Research

Liu,

Clevenger,

Brønd

et al. 2024

Journal for the Measurement of Physical Behaviour

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Background: Accelerometer time may drift, whereas global positioning system time does not (due to constant satellite communication), potentially impacting linkage of these data; the impact of this issue on outcome measures is unknown. Our study assessed if time drift is consistent between devices and/or data collection waves and the impacts on common outcomes in built environment physical activity research. Methods: First, 11 ActiGraph wGT3X-BT accelerometers were manually or automatically shaken every 6 hr for 10 days, and this experiment was repeated twice (two waves). Accelerometer time was compared with local atomic clock time to identify time drifts. Next, we assessed the time-drift impact on estimates of park moderate to vigorous physical activity in an outdoor experiment, comparing no adjustment (status quo) to device-specific and average adjustment to account for time drift. Finally, we used data from an ongoing health study in Detroit, Michigan, to evaluate the impact of time drift adjustment on free-living linked accelerometer and global positioning system data. Results: There was an average of 6.1 ± 5.1 s of lag in accelerometer time after 10 days, but time drifts varied among accelerometers. Mean absolute differences in park moderate to vigorous physical activity were 0.4–0.5 min/day over the entire outdoor experiment or 0.8–0.9 min/day on Day 7. In the free-living study, overall differences in park moderate to vigorous physical activity were 0.0–0.1 min/day, but the maximum difference was 1.9 min/day. Conclusions: Time drift had little impact on estimates, although research requiring high temporal resolution should assess the time drift of individual accelerometers before data collection to account for drift, particularly when linking to global positioning system data.

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Systematic review of best practices for GPS data usage, processing, and linkage in health, exposure science and environmental context research

Cited by 2 publications

References 199 publications

Outdoor physical activity is not associated with better mental health in a sample of predominantly Black people, but spending time in parks is

Outdoor physical activity is not associated with better mental health in a sample of predominantly Black people, but spending time in parks is

Extent and Impact of Accelerometer Time Drift on Linkage With Global Positioning System Data for Physical Activity Research

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