Abstract
To investigate the association between physical activity (including active travel modes) and environmental factors, much research has estimated contextual influences based on zones or areas delineated with buffer analysis. However, few studies to date have examined the effects of different buffer sizes on estimates of individuals’ dynamic exposures along their daily trips recorded as GPS trajectories. Thus, using a 7-day GPS dataset collected in the Chicago Regional Household Travel Inventory (CRHTI) Survey, this study addresses the methodological issue of how the associations between environmental contexts and active travel modes (ATMs) as a subset of physical activity vary with GPS-based buffer size. The results indicate that buffer size influences such associations and the significance levels of the seven environmental factors selected as predictors. Further, the findings on the effects of buffer size on such associations and the significance levels are clearly different between the ATMs of walking and biking. Such evidence of the existence of buffer-size effects for multiple environmental factors not only confirms the importance of the uncertain geographic context problem (UGCoP) but provides a resounding cautionary note to all future research on human mobility involving individuals’ GPS trajectories, including studies on physical activity and travel behaviors, especially on the reliable estimation of individual exposures to environmental factors and their health outcomes.
Highlights
With an increasing interest in the relationships between environmental contexts and human health-related behaviors and outcomes, many physical activity (PA) researchers have investigated the environmental influences on people’s moderate to vigorous PA
This study explored how different buffer sizes affect the associations between active travel modes (ATMs) and multiple environmental factors in the estimation of spatially-immediate and temporally-momentary exposures around individuals’ GPS trajectories for PA and transportation research
The sensitivity analysis with different buffer sizes addressed the uncertain geographic context problem (UGCoP) by showing that the study results are sensitive to the choice of different sizes of buffers and large buffer sizes have more significant findings
Summary
With an increasing interest in the relationships between environmental contexts and human health-related behaviors and outcomes, many physical activity (PA) researchers have investigated the environmental influences on people’s moderate to vigorous PA. Buffer zones with a pre-specified distance are, often used in research on PA to delineate areas within which individuals are potentially affected by specific environmental factors. When compared to the static locations, such as home addresses, a few studies have been conducted to explore the effects of the sizes of GPS-based buffers when estimating the dynamic exposure along individuals’ daily GPS trajectories. This study addresses the methodological issue of the effects of different buffer sizes on the estimated relationships between environmental contexts and active travel modes (ATMs), which is a manifestation of the UGCoP.
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