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State of Charge Prediction Algorithm of Lithium-Ion Battery Based on PSO-SVR Cross Validation

Ran Li, Shihui Xu, Sibo Li, Yongqin Zhou, Kai Zhou, Xianzhong Liu, Jie Yao

2020IEEE Access95 citationsDOIOpen Access PDF

Abstract

Lithium-ion battery refers to a complex nonlinear system. Real-time diagnosis and accurate prediction of battery state of charge(SOC) parameters are hotspots and critical issues in battery research. To reduce the dependence of state of charge prediction on battery model accuracy and speed, and achieve real-time online estimation, a SOC prediction model of lithium-ion battery system is developed based on the model of support vector machine (SVM). SVM parameter is optimized using an algorithm of particle swarm optimization, and the performance of prediction model is assessed using cross-validation. The obtained experimental data is simulated, involving the comparison with the support vector machine model, and the prediction simulation of the battery in the state of fault. The results reveal that this model with a better performance than that of the support vector machine exhibits high accuracy and generalization ability.

Topics & Concepts

State of chargeLithium (medication)Computer scienceBattery (electricity)IonState (computer science)AlgorithmLithium-ion batteryCharge (physics)ChemistryPhysicsThermodynamicsQuantum mechanicsMedicinePower (physics)EndocrinologyOrganic chemistryAdvanced Battery Technologies ResearchAdvanced Algorithms and ApplicationsFault Detection and Control Systems
State of Charge Prediction Algorithm of Lithium-Ion Battery Based on PSO-SVR Cross Validation | Litcius