Abstract
Electric vehicles (EVs) can play a central role in today’s efforts to reduce CO\(_2\) emission and slow down the climate change. Two of the most important reasons against purchase or use of an EV are its short range and long charging times. In the project “E-WALD—Elektromobilität Bayerischer Wald”, we develop mathematical models to predict the range of EVs by estimating the electrical power consumption (EPC) along possible routes. Based on the EPC forecasts the range is calculated and visualized by a range polygon on a navigation map. The models are based on data that are constantly collected by cars within a commercial car fleet. The dataset is modelled with three methods: a linear model, an additive model and a fully nonparametric model. To fit the linear model, ordinary least squares (OLS) regression as well as linear median regression are applied. The other models are fitted by modern machine learning algorithms: the additive model is fitted by boosting algorithm and the fully nonparametric model is fitted by support vector regression (SVR). The models are compared by mean absolute error (MAE). Our research findings show that data preparation is more influential than the chosen model.
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The E-WALD project and this study have been funded by the Bavarian State Ministry for Economic Affairs and Media, Energy and Technology.
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Kluge, C., Schuster, S., Sellner, D. (2018). Statistics Instead of Stopover—Range Predictions for Electric Vehicles. In: Fink, A., Fügenschuh, A., Geiger, M. (eds) Operations Research Proceedings 2016. Operations Research Proceedings. Springer, Cham. https://doi.org/10.1007/978-3-319-55702-1_8
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DOI: https://doi.org/10.1007/978-3-319-55702-1_8
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