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Forecasting Electric Vehicles’ Charging Behavior at Charging Stations: A Data Science-Based Approach

Author

Listed:
  • Herbert Amezquita

    (Interactive Technologies Institute, LARSyS, Universidade de Lisboa, 1049-001 Lisbon, Portugal)

  • Cindy P. Guzman

    (Department of Electrical and Computer Engineering, INESC-ID—Instituto de Engenharia de Sistemas e Computadores-Investigação e Desenvolvimento, Instituto Superior Técnico (IST), Universidade de Lisboa, Rua Alves Redol, 9, 1000-029 Lisboa, Portugal)

  • Hugo Morais

    (Department of Electrical and Computer Engineering, INESC-ID—Instituto de Engenharia de Sistemas e Computadores-Investigação e Desenvolvimento, Instituto Superior Técnico (IST), Universidade de Lisboa, Rua Alves Redol, 9, 1000-029 Lisboa, Portugal)

Abstract

The rising adoption of electric vehicles (EVs), driven by carbon neutrality goals, has prompted the need for accurate forecasting of EVs’ charging behavior. However, this task presents several challenges due to the dynamic nature of EVs’ usage patterns, including fluctuating demand and unpredictable charging durations. In response to these challenges and different from previous works, this paper presents a novel and holistic methodology for day-ahead forecasting of EVs’ plugged-in status and power consumption in charging stations (CSs). The proposed framework encompasses data analysis, pre-processing, feature engineering, feature selection, the use and comparison of diverse machine learning forecasting algorithms, and validation. A real-world dataset from a CS in Boulder City is employed to evaluate the framework’s effectiveness, and the results demonstrate its proficiency in predicting the EVs’ plugged-in status, with XGBoost’s classifier achieving remarkable accuracy with an F1-score of 0.97. Furthermore, an in-depth evaluation of six regression methods highlighted the supremacy of gradient boosting algorithms in forecasting the EVs’ power consumption, with LightGBM emerging as the most effective method due to its optimal balance between prediction accuracy with a 4.22% normalized root-mean-squared error (NRMSE) and computational efficiency with 5 s of execution time. The proposed framework equips power system operators with strategic tools to anticipate and adapt to the evolving EV landscape.

Suggested Citation

  • Herbert Amezquita & Cindy P. Guzman & Hugo Morais, 2024. "Forecasting Electric Vehicles’ Charging Behavior at Charging Stations: A Data Science-Based Approach," Energies, MDPI, vol. 17(14), pages 1-27, July.
    • Handle: RePEc:gam:jeners:v:17:y:2024:i:14:p:3396-:d:1432697
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    References listed on IDEAS

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    1. Hyndman, Rob J. & Koehler, Anne B., 2006. "Another look at measures of forecast accuracy," International Journal of Forecasting, Elsevier, vol. 22(4), pages 679-688.
    2. Antoniadis, Anestis & Lambert-Lacroix, Sophie & Poggi, Jean-Michel, 2021. "Random forests for global sensitivity analysis: A selective review," Reliability Engineering and System Safety, Elsevier, vol. 206(C).
    3. Andi A. H. Lateko & Hong-Tzer Yang & Chao-Ming Huang, 2022. "Short-Term PV Power Forecasting Using a Regression-Based Ensemble Method," Energies, MDPI, vol. 15(11), pages 1-21, June.
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    Cited by:

    1. António J. Arsénio Costa & Hugo Morais, 2024. "Power Quality Control Using Superconducting Magnetic Energy Storage in Power Systems with High Penetration of Renewables: A Review of Systems and Applications," Energies, MDPI, vol. 17(23), pages 1-32, November.

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