A Variable Effective Capacity Model for Traction Batteries Using Computational Intelligence Techniques
L Sanchez, C Blanco, JC Anton… - IEEE Transactions …, 2014 - ieeexplore.ieee.org
Computational intelligence techniques are used to approximate the nonlinear operation of
LiFePO 4 batteries using rule-based systems. In this paper, rule-based systems are not …
LiFePO 4 batteries using rule-based systems. In this paper, rule-based systems are not …
A Variable Effective Capacity Model for Traction Batteries Using Computational Intelligence Techniques
L Sanchez, C Blanco, JC Anton, V Garcia… - IEEE Transactions on …, 2015 - infona.pl
Computational intelligence techniques are used to approximate the nonlinear operation of
$\hbox {LiFePO} _ {4} $ batteries using rule-based systems. In this paper, rule-based …
$\hbox {LiFePO} _ {4} $ batteries using rule-based systems. In this paper, rule-based …
[引用][C] A variable effective capacity model for LiFePO4 traction batteries using computational intelligence techniques
L Sánchez Ramos, CJ Blanco Viejo… - IEEE Transactions on …, 2015 - digibuo.uniovi.es
A variable effective capacity model for LiFePO4 traction batteries using computational
intelligence techniques RUO Principal Repositorio Institucional de la Universidad de …
intelligence techniques RUO Principal Repositorio Institucional de la Universidad de …