DocumentCode
1764679
Title
Potential of Intelligent Transportation Systems in Mitigating Adverse Weather Impacts on Road Mobility: A Review
Author
Dey, Kakan C. ; Mishra, Ashok ; Chowdhury, Mashrur
Author_Institution
Glenn Dept. of Civil Eng., Clemson Univ., Clemson, SC, USA
Volume
16
Issue
3
fYear
2015
fDate
42156
Firstpage
1107
Lastpage
1119
Abstract
Adverse weather conditions for roads, which cause transportation systems to perform far below capacity, can severely affect society´s economic output. As elimination of road weather events is not possible, transportation agencies perform proactive and reactive maintenance activities to minimize adverse impacts to keep roadways in optimum condition. While reactive maintenance activities are conducted to clear roadways after the occurrence of extreme weather events, proactive activities minimize these impacts beforehand. The success of proactive activities solely depends on the availability of accurate road weather information, however. Traditional road weather forecasting techniques rely on governmental weather services, which are not appropriate to predict route-specific road weather conditions. In this paper, the authors reviewed current intelligent transportation systems (ITS)-based solutions for minimizing road weather impacts and possible ITS innovations to incorporate diverse data sources to improve road weather management activities. ITS-based initiatives, such as road weather information system (RWIS), allow transportation agencies obtain accurate road weather assessments. Location-specific infrastructures such as RWIS are cost prohibitive for system-wide deployments. Connected vehicles equipped with weather sensors could enhance mobile road weather data collection. This strategy could improve proactive maintenance programs and reduce adverse effects of weather to the surface transportation system.
Keywords
innovation management; intelligent transportation systems; mobile computing; roads; socio-economic effects; weather forecasting; ITS innovations; ITS-based initiatives; RWIS; adverse weather conditions; adverse weather impacts; governmental weather services; intelligent transportation systems; mobile road weather data collection; proactive maintenance activities; reactive maintenance activities; road mobility; road weather events; road weather forecasting techniques; road weather information system; route-specific road weather conditions; society economic output; surface transportation system; system-wide deployments; Computer crashes; Maintenance engineering; Roads; Snow; Weather forecasting; Climate change; connected vehicles; extreme weather events; intelligent transportation systems (ITS); road weather; winter road maintenance;
fLanguage
English
Journal_Title
Intelligent Transportation Systems, IEEE Transactions on
Publisher
ieee
ISSN
1524-9050
Type
jour
DOI
10.1109/TITS.2014.2371455
Filename
6991566
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