Energy Consumption Prediction with Uncertainty Quantification for Electric Truck Operations: A Data-Driven Approach

Rik Litjens; Róbinson Medina; Nikos Avramis; Camiel Beckers; Steven Wilkins; Mykola Pechenizkiy

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Paper

Energy Consumption Prediction with Uncertainty Quantification for Electric Truck Operations: A Data-Driven Approach

Topics: Analytics for Intelligent Transportation; Big Data & Vehicle Analytics; Big Data Analytics for Intelligent Transportation; Electric Vehicles; Energy & Battery Management

In Proceedings of the 11th International Conference on Vehicle Technology and Intelligent Transport Systems VEHITS - Volume 1, 166-177, 2025 , Porto, Portugal

Authors: Rik Litjens ¹ ; Róbinson Medina ² ; Nikos Avramis ² ; Camiel Beckers ² ; Steven Wilkins ² and Mykola Pechenizkiy ¹

Affiliations: ¹ Department of Mathematics and Computer Science, Eindhoven University of Technology, Eindhoven, the Netherlands ; ² Powertrains Department, TNO, Helmond, the Netherlands

Keyword(s): Energy Consumption, Prediction Model, Uncertainty Quantification, Battery Electric Vehicle, Fleet Management, LSTM.

Abstract: The adoption of electric trucks in commercial applications is growing due the the adoption of zero-emission zones in large cities. However, the usage of these trucks shows challenges for fleet managers due to their limited range and uncertain energy usage. Accurately predicting the energy consumption of these vehicles is crucial for their optimal usage in commercial applications. This work introduces a novel energy consumption prediction method for electric trucks, based on a data-driven approach. The approach uses a two-stage Long Short-Term Memory (LSTM) architecture: the first stage predicts vehicle speed while the second predicts energy consumption. For the second stage, two updates to the LSTM encoder are proposed. The first improves the energy prediction by splitting the predictions into regenerated and consumed energy, whereas the second provides a score that quantifies the prediction uncertainty using Student’s t-distribution. Evaluating the approach using real-world truck-op eration data shows that splitting the energy consumption into regenerative and consumed components contributes to a 20% reduction of error compared to a state-of-the-art LSTM model, mainly due to improved prediction accuracy for regenerated energy. Finally, the t-score demonstrates a 92% reduction of calibration error compared to a Gaussian equivalent. This ensures reliable application in the design of worst-case planning scenarios, decision thresholds, and probabilistic planning approaches. (More)

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Paper citation in several formats:

Litjens, R., Medina, R., Avramis, N., Beckers, C., Wilkins, S. and Pechenizkiy, M. (2025). Energy Consumption Prediction with Uncertainty Quantification for Electric Truck Operations: A Data-Driven Approach. In Proceedings of the 11th International Conference on Vehicle Technology and Intelligent Transport Systems - VEHITS; ISBN 978-989-758-745-0; ISSN 2184-495X, SciTePress, pages 166-177. DOI: 10.5220/0013362900003941

@conference{vehits25,
author={Rik Litjens and Róbinson Medina and Nikos Avramis and Camiel Beckers and Steven Wilkins and Mykola Pechenizkiy},
title={Energy Consumption Prediction with Uncertainty Quantification for Electric Truck Operations: A Data-Driven Approach},
booktitle={Proceedings of the 11th International Conference on Vehicle Technology and Intelligent Transport Systems - VEHITS},
year={2025},
pages={166-177},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0013362900003941},
isbn={978-989-758-745-0},
issn={2184-495X},
}

TY - CONF

JO - Proceedings of the 11th International Conference on Vehicle Technology and Intelligent Transport Systems - VEHITS
TI - Energy Consumption Prediction with Uncertainty Quantification for Electric Truck Operations: A Data-Driven Approach
SN - 978-989-758-745-0
IS - 2184-495X
AU - Litjens, R.
AU - Medina, R.
AU - Avramis, N.
AU - Beckers, C.
AU - Wilkins, S.
AU - Pechenizkiy, M.
PY - 2025
SP - 166
EP - 177
DO - 10.5220/0013362900003941
PB - SciTePress