Self‐Discharge Voltage Drop Estimation Method Based on Improved Gaussian Process Regression

Abstract: The self-discharge rate is an important index for determining the quality of a lithium-ion battery. Currently, the self-discharge of a battery is mainly determined through experimental tests, which are time-consuming and laborious. To provide a fast and reliable self-discharge rate estimation, an improved Gaussian process regression (GPR) model based on the charge-discharge curve is proposed to estimate the self-discharge voltage drop. In this method, the voltage features extracted from the charge-discharge cu… Show more

“…Deutschen et al 20 adopted an equivalent-circuit model 21 to describe the continuous voltage decay during self-discharge. More recently, Liu et al 22 proposed an z E-mail: gplett@uccs.edu a Note that there are different definitions of cell capacity in the literature. Here, we are interested in the loss of total capacity, which is defined as the amount of charge that is removed from a cell when discharging it from a condition where = OCV v max (i.e., 100% SOC) to a condition where = OCV v min (i.e., 0% SOC).…”

Modeling Voltage Decay During Calendar-Life Aging

“…Deutschen et al 20 adopted an equivalent-circuit model 21 to describe the continuous voltage decay during self-discharge. More recently, Liu et al 22 proposed an z E-mail: gplett@uccs.edu a Note that there are different definitions of cell capacity in the literature. Here, we are interested in the loss of total capacity, which is defined as the amount of charge that is removed from a cell when discharging it from a condition where = OCV v max (i.e., 100% SOC) to a condition where = OCV v min (i.e., 0% SOC).…”

Modeling Voltage Decay During Calendar-Life Aging