Air Pollution and Fog Detection through Vehicular Sensors

We describe a method for the automatic recognition of air pollution and fog from a vehicle. Our system consists of sensors to acquire main data from cameras as well as from Light Detection and Recognition (LIDAR) instruments. We discuss how this data can be collected, analyzed and merged to determin...

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Bibliographic Details
Published in2014 8th Asia Modelling Symposium pp. 181 - 186
Main Authors Sallis, Philip, Dannheim, Clemens, Icking, Christian, Maeder, Markus
Format Conference Proceeding
LanguageEnglish
Published IEEE 01.09.2014
Subjects
Air pollution
air pollution detection
air pollution forecasting services
Atmospheric measurements
colaborative driver assistant functions
fog detection
Laser radar
LIDAR
Meteorology
Pollution measurement
remote sensing
Sensors
spatial resolution
Vehicles
weather detection
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Summary:We describe a method for the automatic recognition of air pollution and fog from a vehicle. Our system consists of sensors to acquire main data from cameras as well as from Light Detection and Recognition (LIDAR) instruments. We discuss how this data can be collected, analyzed and merged to determine the degree of air pollution or fog. Such data is essential for control systems of moving vehicles in making autonomous decisions for avoidance. Backend systems need such data for forecasting and strategic traffic planning and control. Laboratory based experimental results are presented for weather conditions like air pollution and fog, showing that the recognition scenario works with better than adequate results. This paper demonstrates that LIDAR technology, already onboard for the purpose of autonomous driving, can be used to improve weather condition recognition when compared with a camera only system. We conclude that the combination of a front camera and a LIDAR laser scanner is well suited as a sensor instrument set for air pollution and fog recognition that can contribute accurate data to driving assistance and weather alerting-systems.
ISSN:2376-1164
DOI:10.1109/AMS.2014.43