Clustering techniques performance comparison for predicting the battery state of charge: A hybrid model approach
IF 0.6
4区 数学
Q2 LOGIC
引用次数: 0
Abstract
Batteries are a fundamental storage component due to its various applications in mobility, renewable energies and consumer electronics among others. Regardless of the battery typology, one key variable from a user’s perspective is the remaining energy in the battery. It is usually presented as the percentage of remaining energy compared to the total energy that can be stored and is labeled State Of Charge (SOC). This work addresses the development of a hybrid model based on a Lithium Iron Phosphate (LiFePO4) power cell, due to its broad implementation. The proposed model calculates the SOC, by means of voltage and electric current as inputs and the latter as the output. Therefore, four models based on k-Means, Agglomerative Clustering, Gaussian Mixture and Spectral Clustering techniques have been tested in order to obtain an optimal solution.预测电池充电状态的聚类技术性能比较:混合模型方法
电池是一种基本的存储组件,在移动、可再生能源和消费类电子产品等领域有着广泛的应用。无论电池类型如何,从用户的角度来看,一个关键变量就是电池中的剩余能量。它通常以剩余能量占可存储总能量的百分比来表示,并标注为充电状态(SOC)。由于磷酸铁锂(LiFePO4)动力电池的广泛应用,这项工作涉及基于磷酸铁锂动力电池的混合模型的开发。建议的模型以电压和电流为输入,后者为输出,从而计算 SOC。因此,为了获得最佳解决方案,对基于 k-Means、聚合聚类、高斯混杂和光谱聚类技术的四种模型进行了测试。
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来源期刊
CiteScore
2.60
自引率
10.00%
发文量
76
审稿时长
6-12 weeks
期刊介绍:
Logic Journal of the IGPL publishes papers in all areas of pure and applied logic, including pure logical systems, proof theory, model theory, recursion theory, type theory, nonclassical logics, nonmonotonic logic, numerical and uncertainty reasoning, logic and AI, foundations of logic programming, logic and computation, logic and language, and logic engineering.
Logic Journal of the IGPL is published under licence from Professor Dov Gabbay as owner of the journal.
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