Windshield wipers on connected vehicles produce high-accuracy rainfall maps

Scientific Reports, 9(1), (2019)

Analysis of rainfall/wiper relationship for a single vehicle trip. The top two panels show video footage during the rainy (left) and dry (right) segments of the trip. The bottom left panel shows a map of the vehicle trip, with the wiper intensity indicated by color. A radar overlay shows the average rainfall intensity over the 40-minute time period.

Publication info

Recommended citation:

Bartos, M., Park, H., Zhou, T., Kerkez, B., & Vasudevan, R. (2019). Windshield wipers on connected vehicles produce high-accuracy rainfall maps. Scientific Reports, 9(1). doi:10.1038/s41598-018-36282-7

Available at:

https://www.nature.com/articles/s41598-018-36282-7

Journal impact factor (2019):

3.998

Abstract

Connected vehicles are poised to transform the field of environmental sensing by enabling acquisition of scientific data at unprecedented scales. Drawing on a real-world dataset collected from almost 70 connected vehicles, this study generates improved rainfall estimates by combining weather radar with windshield wiper observations. Existing methods for measuring precipitation are subject to spatial and temporal uncertainties that compromise high-precision applications like flash flood forecasting. Windshield wiper measurements from connected vehicles correct these uncertainties by providing precise information about the timing and location of rainfall. Using co-located vehicle dashboard camera footage, we find that wiper measurements are a stronger predictor of binary rainfall state than traditional stationary gages or radar-based measurements. We introduce a Bayesian filtering framework that generates improved rainfall estimates by updating radar rainfall fields with windshield wiper observations. We find that the resulting rainfall field estimate captures rainfall events that would otherwise be missed by conventional measurements. We discuss how these enhanced rainfall maps can be used to improve flood warnings and facilitate real-time operation of stormwater infrastructure.