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State of charge estimation for lithium-ion batteries based on a novel complex-order model

Liping Chen, Xiaobo Wu, António M. Lopes, Xin Li, Penghua Li, Ranchao Wu

2023Communications in Nonlinear Science and Numerical Simulation11 citationsDOIOpen Access PDF

Abstract

The accuracy of the battery model is decisive in model-based state of charge (SOC) estimation. In this paper, complex-order derivatives (CDs) are applied in the scope of battery modeling, parameter identification, and SOC estimation. Firstly, a novel complex-order equivalent circuit model (Co-ECM) for lithium-ion batteries, which considers an innovative complex-order constant phase element, is proposed. Secondly, the structure characteristics of the Co-ECM are analyzed, and a complex-order particle swarm optimization algorithm is developed to identify the Co-ECM parameters. Finally, a novel complex-order unscented Kalman filter is designed to estimate the battery SOC, while CDs capture the system past behavior and tackle the nonlinearities of the constant phase element. Also, the proposed Co-ECM is compared with two other alternatives (i.e., integer-order and fractional-order ECM) based on data from two battery test cycles at different temperatures. The results show that the new Co-ECM leads to SOC estimation accuracy higher than the traditional models over a wide range of temperature (0∘C, 25∘C and 45∘C), with root-mean-squared error (RMSE) and mean absolute error (MAE) less than 0.47% and 0.41%, respectively. Moreover, experiments with data polluted with artificial noise revealed that the proposed model has superior robustness against noisy information. The new Co-ECM is, thus, shown to be a prime option for battery SOC estimation.

Topics & Concepts

State of chargeRobustness (evolution)Mean squared errorBattery (electricity)Kalman filterParticle swarm optimizationEquivalent circuitLithium-ion batteryAlgorithmComputer scienceControl theory (sociology)MathematicsEngineeringVoltageChemistryElectrical engineeringArtificial intelligencePhysicsStatisticsPower (physics)Control (management)BiochemistryQuantum mechanicsGeneAdvanced Battery Technologies ResearchIoT-based Smart Home SystemsAdvancements in Battery Materials
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