Public health research has witnessed a rapid development in the use of location, environmental, behavioral, and biophysical sensors that provide high-resolution objective time-stamped data. This burgeoning field is stimulated by the development of novel multisensor devices that collect data for an increasing number of channels and algorithms that predict relevant dimensions from one or several data channels. Global positioning system (GPS) tracking, which enables geographic momentary assessment, permits researchers to assess multiplace personal exposure areas and the algorithmbased identification of trips and places visited, eventually validated and complemented using a GPS-based mobility survey. These methods open a new space-time perspective that considers the full dynamic of residential and nonresidential momentary exposures; spatially and temporally disaggregates the behavioral and health outcomes, thus replacing them in their immediate environmental context; investigates complex time sequences; explores the interplay among individual, environmental, and situational predictors; performs life-segment analyses considering infraindividual statistical units using case-crossover models; and derives recommendations for just-in-time interventions.

Additional Metadata
Keywords continuous monitoring, environment, mobility, neighborhoods, sensors, smartphones
Persistent URL dx.doi.org/10.1146/annurev-publhealth-040617-013731, hdl.handle.net/1765/118022
Series Annual Review of Public Health , MINDMAP
Citation
Chaix, B. (2018). Mobile Sensing in Environmental Health and Neighborhood Research. MINDMAP. doi:10.1146/annurev-publhealth-040617-013731