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Battery Lifetime Prediction via Neural Networks with Discharge Capacity and State of Health

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  • Jamila Hemdani

    (Department of Electrical Engineering, The National Higher Engineering School of Tunis (ENSIT), University of Tunis, Laboratoire d’Ingenierie des Systèmes Industriels et des Energies Renouvelables, Tunis BP 56-1008, Tunisia
    Laboratoire des Systèmes et Energies Embarqués pour les Transports, Higher School of Aeronautical Techniques and Automobile Construction (ESTACA), Parc Universitaire Laval-Changé, Rue Georges Charpak, 53000 Laval, France)

  • Laid Degaa

    (Laboratoire des Systèmes et Energies Embarqués pour les Transports, Higher School of Aeronautical Techniques and Automobile Construction (ESTACA), Parc Universitaire Laval-Changé, Rue Georges Charpak, 53000 Laval, France)

  • Moez Soltani

    (Department of Electrical Engineering, The National Higher Engineering School of Tunis (ENSIT), University of Tunis, Laboratoire d’Ingenierie des Systèmes Industriels et des Energies Renouvelables, Tunis BP 56-1008, Tunisia)

  • Nassim Rizoug

    (Laboratoire des Systèmes et Energies Embarqués pour les Transports, Higher School of Aeronautical Techniques and Automobile Construction (ESTACA), Parc Universitaire Laval-Changé, Rue Georges Charpak, 53000 Laval, France)

  • Achraf Jabeur Telmoudi

    (Department of Electrical Engineering, The National Higher Engineering School of Tunis (ENSIT), University of Tunis, Laboratoire d’Ingenierie des Systèmes Industriels et des Energies Renouvelables, Tunis BP 56-1008, Tunisia)

  • Abdelkader Chaari

    (Department of Electrical Engineering, The National Higher Engineering School of Tunis (ENSIT), University of Tunis, Laboratoire d’Ingenierie des Systèmes Industriels et des Energies Renouvelables, Tunis BP 56-1008, Tunisia)

Abstract

The market share of electric vehicles (EVs) has grown exponentially in recent years to reduce air pollution and greenhouse gas emissions. The principal part of an EV is the energy storage system, which is usually the batteries. Thus, the accurate estimation of the remaining useful life (RUL) of the batteries, for an optimal health management and a decision-making policy, still remains a challenge for automakers. In this paper, the problem of battery RUL prediction is studied from a new perspective. Unlike other estimation strategies existing in the literature, the proposed technique uses an intelligent prediction of the lifespan of lithium–iron–phosphate (LFP) batteries via a modified version of neural networks. It uses a data-driven life estimation approach and optimization method and does not require any prior comprehension and initialization of any parameters of the battery model. To validate and verify the proposed technique, we use LFP battery data sets, and the experimental results showed that the proposed methodology can well learn the characteristic relationship of battery discharge capacities as well as its state of health (SOH), where the battery life cycle changes as the battery ages with time and cycles.

Suggested Citation

  • Jamila Hemdani & Laid Degaa & Moez Soltani & Nassim Rizoug & Achraf Jabeur Telmoudi & Abdelkader Chaari, 2022. "Battery Lifetime Prediction via Neural Networks with Discharge Capacity and State of Health," Energies, MDPI, vol. 15(22), pages 1-17, November.
    • Handle: RePEc:gam:jeners:v:15:y:2022:i:22:p:8558-:d:973994
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    References listed on IDEAS

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    1. Lei Xiao & Xiaohui Chen & Xinghui Zhang, 2014. "A Joint Optimization of Momentum Item and Levenberg-Marquardt Algorithm to Level Up the BPNN’s Generalization Ability," Mathematical Problems in Engineering, Hindawi, vol. 2014, pages 1-10, April.
    2. Jun Lu & Tianpin Wu & Khalil Amine, 2017. "State-of-the-art characterization techniques for advanced lithium-ion batteries," Nature Energy, Nature, vol. 2(3), pages 1-13, March.
    3. Hirotugu Akaike, 1969. "Fitting autoregressive models for prediction," Annals of the Institute of Statistical Mathematics, Springer;The Institute of Statistical Mathematics, vol. 21(1), pages 243-247, December.
    4. Wojciech Cieslik & Filip Szwajca & Wojciech Golimowski & Andrew Berger, 2021. "Experimental Analysis of Residential Photovoltaic (PV) and Electric Vehicle (EV) Systems in Terms of Annual Energy Utilization," Energies, MDPI, vol. 14(4), pages 1-21, February.
    5. Juan C. González Palencia & Van Tuan Nguyen & Mikiya Araki & Seiichi Shiga, 2020. "The Role of Powertrain Electrification in Achieving Deep Decarbonization in Road Freight Transport," Energies, MDPI, vol. 13(10), pages 1-24, May.
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    Cited by:

    1. Sarmad Hameed & Faraz Junejo & Imran Amin & Asif Khalid Qureshi & Irfan Khan Tanoli, 2023. "An Intelligent Deep Learning Technique for Predicting Hobbing Tool Wear Based on Gear Hobbing Using Real-Time Monitoring Data," Energies, MDPI, vol. 16(17), pages 1-21, August.

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