Litcius/Paper detail

State of charge (SOC) estimation in electric vehicle (EV) battery management systems using ensemble methods and neural networks

Edward Ofoegbu

2025Journal of Energy Storage62 citationsDOIOpen Access PDF

Abstract

Battery management systems (BMS) are critical in ensuring the performance, reliability, and safety of battery systems through accurate estimation of the State of Charge (SOC) of batteries . As on-board SOC estimation, together with other functionalities by the BMS can result in its high design complexity, high cost, and high energy consumption, this study explores a data-driven estimation of a Lithium battery state of charge (SOC) while discharging, using simple linear regression, ensemble methods, and neural networks respectively to ensure an accurate low time complexity solution as compared to existing methods. A known dataset of 835,248 records from Li [NiMnCo]O2 (H-NMC)/Graphite + SiO battery was used to train and test each model to determine the best fit. This study determined that neural networks are the models of choice for SOC prediction instead of linear and ensemble regression. Still, also the wide tri-layered feed-forward neural network proposed in this study showed great results by having a maximum error percentage of less than 1 %, and a mean squared error (MSE) of 1e-08, which is similar to or better than what is obtainable in other more complex deep neural network variants such as the Gated recurrent unit recurrent neural network (GRU-RNN), with an MSE of 1e-06 and similar load classifying neural network models with an error percentage of 3.8 %. The FFNN proposed in this study also has the advantage of having lower technical and time complexity computational costs required for active fault estimation in thin client devices such as a BMS.

Topics & Concepts

State of chargeArtificial neural networkElectric vehicleBattery (electricity)EstimationComputer scienceState (computer science)Automotive engineeringEngineeringArtificial intelligenceAlgorithmPhysicsSystems engineeringPower (physics)Quantum mechanicsAdvanced Battery Technologies ResearchAdvancements in Battery MaterialsElectric Vehicles and Infrastructure