Abstract
Traffic flow forecasting is one of the most important use cases related to smart cities. In addition to assisting traffic management authorities, traffic forecasting can help drivers to choose the best path to their destinations. Accurate traffic forecasting is a basic requirement for traffic management. We propose a traffic forecasting approach that utilizes air pollution and atmospheric parameters. Air pollution levels are often associated with traffic intensity, and much work is already available in which air pollution has been predicted using road traffic. However, to the best of our knowledge, an attempt to improve forecasting road traffic using air pollution and atmospheric parameters is not yet available in the literature. In our preliminary experiments, we found out the relation between traffic intensity, air pollution, and atmospheric parameters. Therefore, we believe that addition of air pollutants and atmospheric parameters can improve the traffic forecasting. Our method uses air pollution gases, including and . We chose these gases because they are associated with road traffic. Some atmospheric parameters, including pressure, temperature, wind direction, and wind speed have also been considered, as these parameters can play an important role in the dispersion of the above-mentioned gases. Data related to traffic flow, air pollution, and the atmosphere were collected from the open data portal of Madrid, Spain. The long short-term memory (LSTM) recurrent neural network (RNN) was used in this paper to perform traffic forecasting.
Highlights
We provide a detailed statistical analysis based on the relationship between air pollutants, atmospheric variables, and road traffic; To the best of our knowledge, this is the first attempt to use air pollutants in combination with atmospheric variables to improve traffic forecasting in a smart city; Our approach uses a well-known long short-term memory (LSTM) recurrent neural network (RNN) for time-series traffic data forecasting; and
The results produced from step one and step two were compared to observe how air pollution and atmospheric data, combined with traffic intensity data, could be used to forecast traffic flow
The maximum Mean Absolute Error (MAE) produced by the LSTM RNN for the traffic sensors within the radius of m of air pollution sensor “28079016” was 0.214 while the minimum MAE was 0.061
Summary
Vehicular traffic management is a major issue in cities and metropolitanareas [1]. Smart mobility is one of the most important services of smart city platform. It has a direct impact on the quality of life of citizens and on the ability of the city to support the exchange of people and goods within the urban environment. Traffic congestion is a major problem, especially when it is associated with an increasing number of vehicles in use (e.g., in cities with inadequate public transportation). It leads to environmental, social, and economic issues [3]
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