首页|Prior-based patch-level representation learning for electric vehicle battery state-of-charge estimation across a wide temperature scope
Prior-based patch-level representation learning for electric vehicle battery state-of-charge estimation across a wide temperature scope
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Prior-based patch-level representation learning for electric vehicle battery state-of-charge estimation across a wide temperature scope
Electric vehicles(EVs)powered by lithium-ion batteries have emerged as a global development trend.To ensure the safe and stable driving of EVs,it is imperative to address battery safety and thermal management issues,which rely heavily on the precise state-of-charge(SOC)estimation of the battery.However,estimating SOC under uncontrolled environmental temperatures remains an unresolved challenge.This study proposes a patch-level representation learning model based on domain knowledge to estimate the SOC over a wide temperature range.First,patches were adopted as inputs instead of traditional points,thereby mitigating error accumulation and capturing dynamic changes in the battery from these more informative representations.Second,the open-circuit voltage(OCV)-SOC-temperature relationship was incorporated to obtain the temperature-related SOC priors.Subsequently,the prior was updated recursively along the time dimension to obtain a more precise SOC estimate.The accuracy of the proposed model was confirmed experimentally for three driving cycles at six ambient temperatures,significantly reducing the root mean square error by 48.19%compared to popular existing models.Notably,the performance of the proposed method had an excellent improvement of 51.52%and 57.20%at-10℃ and-20℃,respectively.Moreover,the parameter size of the proposed method was 39.748 KB,which significantly promoted the deployment and application of data-driven models in the real world.
lithium-ion batterydata-drivenprior knowledgestate-of-chargewide temperature scope
YE SongTao、AN Dou
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Faculty of Electronic and Information Engineering,Xi'an Jiaotong University,Xi'an 710049,China
lithium-ion battery data-driven prior knowledge state-of-charge wide temperature scope
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