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Abstract
Abstract. This paper proposes a novel approach to facilitate air quality aware decision making and to support planning actors to take effective measures for improving the air quality in cities and regions. Despite many improvements over the past decades, air pollutants such as particulate matter (PM), nitrogen dioxide (NO2) and ground-level ozone (O3) pose still one of the major risks to human health and the environment. Based on both a general analysis of the air quality situation and regulations in the EU and Germany as well as an in-depth analysis of local management practices requirements for better decision making are identified. The requirements are used to outline a system architecture following a co-design approach, i.e., besides scientific and industry partners, local experts and administrative actors are actively involved in the system development. Additionally, the outlined system incorporates two novel methodological strands: (1) it employs a deep neural network (DNN) based data analytics approach and (2) makes use of a new generation of satellite data, namely Sentinel-5 Precursor (Sentinel-5P). Hence, the system allows for providing areal and high-resolution (e.g., street-level) real-time and forecast (up to 48 hours) data to inform decision makers for taking appropriate short-term measures, and secondly, to simulate air quality under different planning options and long-term actions such as modified traffic flows and various urban layouts.
Highlights
Air pollution leads to a tremendous health risk and belongs to one of the main issues in cities worldwide
According to the European Environment Agency (EEA) and the German Environment Agency (Umweltbundesamt UBA) tens of thousands of people die as a result of high air pollutant concentration of premature deaths and YLL (Year of Life Lost due to premature mortality)
It is planned to use the trained deep neural network (DNN) to model the relationship between infrastructure data and air pollutants
Summary
Air pollution leads to a tremendous health risk and belongs to one of the main issues in cities worldwide. There are no further measures necessary to reduce the sulphur oxides concentration (EEA 2019: 45) New technologies such as improved engines and exhaust systems, legal regulations as well as the use of low-emission fuels lead to a provable improved air quality in Europe. Despite these achievements, especially the concentrations of PM and NOx regularly exceed the limiting values in European cities. The current focus in Germany is on three air pollutants, particulate matter, nitrogen dioxide and ground-level ozone They have negative repercussions on human health, like the risk of cardiovascular diseases, cancer and respiratory diseases. Relevant data needs to be collected, analysed, and visualized
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