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Physics-Informed Data-Driven Approaches to Electric Vehicle Battery State-of-Health Prediction: Comparison of Parallel and Series Configurations

Yixin Zhao, Karl R. Haapala, Arun Natarajan, Sara Behdad

2025Journal of Computing and Information Science in Engineering8 citationsDOI

Abstract

Abstract Battery lifetime and reliability depend on accurate state-of-health (SOH) estimation, while complex degradation mechanisms and varying operating conditions strengthen this challenge. This study presents two physics-informed neural network (PINN) configurations, PINN-parallel and PINN-series, designed to improve SOH prediction by combining an equivalent circuit model (ECM) with a long short-term memory (LSTM) network. PINN-parallel process inputs data through parallel ECM and LSTM modules and combines their outputs for SOH estimation. On the other hand, the PINN-series uses a sequential approach that feeds ECM-derived parameters into the LSTM network to supplement temporal data analysis with physics information. Both models utilize easily accessible voltage, current, and temperature data that match realistic battery monitoring constraints. Experimental evaluations show that the PINN-series outperforms the PINN-parallel and the baseline LSTM model in accuracy and robustness. It also adapts well to different input conditions. This demonstrates that the simulated battery dynamic states from ECM increase the LSTM's ability to capture degradation patterns and improve the model's ability to explain complex battery behavior. However, a trade-off between the robustness and training efficiency of PINNs is identified. The research outcomes show the potential of PINN models (particularly the PINN-series) in advancing battery management systems, although they require considerable computational resources.

Topics & Concepts

Series (stratigraphy)Battery (electricity)Electric vehicleState (computer science)Time seriesSeries and parallel circuitsComputer scienceEngineeringElectrical engineeringPhysicsMachine learningAlgorithmVoltagePaleontologyBiologyPower (physics)Quantum mechanicsAdvanced Battery Technologies ResearchFault Detection and Control SystemsElectric Vehicles and Infrastructure