Clustering techniques performance comparison for predicting the battery state of charge: A hybrid model approach-Reference-Cited by-同舟云学术

Clustering techniques performance comparison for predicting the battery state of charge: A hybrid model approach

Published:2024-05-09 Issue:4 Volume:32 Page:712-728
ISSN:1367-0751
Container-title:Logic Journal of the IGPL
language:en
Short-container-title:

Author:

Ordás María Teresa¹,del Blanco David Yeregui Marcos²,Aveleira-Mata José³,Zayas-Gato Francisco⁴,Jove Esteban⁵,Casteleiro-Roca José-Luis⁶,Quintián Héctor⁷,Luis Calvo-Rolle José⁸,Alaiz-Moreton Héctor⁹

Affiliation:

1. Department of Electrical and Systems Engineering , Universidad de León, 24071 León , Spain , mgaro@unileon.es

2. Department of Mechanic Engineering , Computer and Aerospacial Sciences, University of León, 24071 León , Spain , david.yeregui.marcos@gmail.com

3. Department of Electrical and Systems Engineering , Universidad de León, 24071 León , Spain , jose.aveleira@unileon.es

4. Department of Industrial Engineering , University of A Coruña, CTC, CITIC, 15071 Ferrol, A Coruña , Spain , f.zayas.gato@udc.es

5. Department of Industrial Engineering , University of A Coruña, CTC, CITIC, 15071 Ferrol, A Coruña , Spain , esteban.jove@udc.es

6. Department of Industrial Engineering , University of A Coruña, CTC, CITIC, 15071 Ferrol, A Coruña , Spain , jose.luis.casteleiro@udc.es

7. Department of Industrial Engineering , University of A Coruña, CTC, CITIC, 15071 Ferrol, A Coruña , Spain , hector.quintian@udc.es

8. Department of Industrial Engineering , University of A Coruña, CTC, CITIC, 15071 Ferrol, A Coruña , Spain , jlcalvo@udc.es

9. Department of Electrical and Systems Engineering , Universidad de León, 24071 León , Spain , hector.moreton@unileon.es

Abstract

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.

Publisher

Oxford University Press (OUP)

Link

https://academic.oup.com/jigpal/article-pdf/32/4/712/58646542/jzae021.pdf

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