Prediction of traffic-related nitrogen oxides concentrations using Structural Time-Series models

Ambient air quality monitoring, modeling and compliance to the standards set by European Union (EU) directives and World Health Organization (WHO) guidelines are required to ensure the protection of human and environmental health. Congested urban areas are most susceptible to traffic-related air pol...

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Veröffentlicht in:	Atmospheric environment (1994) 2011-09, Vol.45 (27), p.4719-4727
Hauptverfasser:	Lawson, Anneka Ruth, Ghosh, Bidisha, Broderick, Brian
Format:	Artikel
Sprache:	eng
Schlagworte:	air pollution Air quality Air quality forecast Applied sciences atmospheric chemistry Atmospheric pollution compliance data collection Dublin city environmental health European Union Exact sciences and technology guidelines humans Mathematical analysis Mathematical models meteorology Methodology Monitoring nitrogen content nitrogen dioxide Nitrogen oxides Pollution prediction Structural Time Series time series analysis traffic Urban areas Vehicular emission World Health Organization
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container_end_page	4727
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container_title	Atmospheric environment (1994)
container_volume	45
creator	Lawson, Anneka Ruth Ghosh, Bidisha Broderick, Brian
description	Ambient air quality monitoring, modeling and compliance to the standards set by European Union (EU) directives and World Health Organization (WHO) guidelines are required to ensure the protection of human and environmental health. Congested urban areas are most susceptible to traffic-related air pollution which is the most problematic source of air pollution in Ireland. Long-term continuous real-time monitoring of ambient air quality at such urban centers is essential but often not realistic due to financial and operational constraints. Hence, the development of a resource-conservative ambient air quality monitoring technique is essential to ensure compliance with the threshold values set by the standards. As an intelligent and advanced statistical methodology, a Structural Time Series (STS) based approach has been introduced in this paper to develop a parsimonious and computationally simple air quality model. In STS methodology, the different components of a time-series dataset such as the trend, seasonal, cyclical and calendar variations can be modeled separately. To test the effectiveness of the proposed modeling strategy, average hourly concentrations of nitrogen dioxide and nitrogen oxides from a congested urban arterial in Dublin city center were modeled using STS methodology. The prediction error estimates from the developed air quality model indicate that the STS model can be a useful tool in predicting nitrogen dioxide and nitrogen oxides concentrations in urban areas and will be particularly useful in situations where the information on external variables such as meteorology or traffic volume is not available. ► First successful application of Structural Time Series predicting ambient NO x and NO 2 levels. ► Road-side measurement of pollutants from the city center of Dublin used for validation. ► One-step and multi-step ahead forecasts with high accuracy achieved. ► Individual tracking of temporal evolution of pollutant concentrations achieved. ► Particularly useful when meteorological or emission data is unavailable.
doi_str_mv	10.1016/j.atmosenv.2011.04.053
format	Article
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subjects	air pollution Air quality Air quality forecast Applied sciences atmospheric chemistry Atmospheric pollution compliance data collection Dublin city environmental health European Union Exact sciences and technology guidelines humans Mathematical analysis Mathematical models meteorology Methodology Monitoring nitrogen content nitrogen dioxide Nitrogen oxides Pollution prediction Structural Time Series time series analysis traffic Urban areas Vehicular emission World Health Organization
title	Prediction of traffic-related nitrogen oxides concentrations using Structural Time-Series models
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