|Real-time prediction of capacity fade and remaining useful life of lithium-ion batteries based on charge/discharge characteristics|
|Year of publication||2021|
|Title of paper||Real-time prediction of capacity fade and remaining useful life of lithium-ion batteries based on charge/discharge characteristics|
|Authors||Lee, C.-J., Kim, B.-K., Kwon, M.-K., Nam, K., and Kang, S.-W.|
|Pages||1 - 14|
|Journal||Electronics (2019 I.F. = 2.412)|
We propose a robust and reliable method based on deep neural networks to estimate the remaining useful life of lithium-ion batteries in electric vehicles. In general, the degradation of a battery can be predicted by monitoring its internal resistance. However, prediction under battery operation cannot be achieved using conventional methods such as electrochemical impedance spectroscopy. The battery state can be predicted based on the change in the capacity according to the state of health. For the proposed method, a statistical analysis of capacity fade considering the impedance increase according to the degree of deterioration is conducted by applying a deep neural network to diverse data from charge/discharge characteristics. Then, probabilistic predictions based on the capacity fade trends are obtained to improve the prediction accuracy of the remaining useful life using another deep neural network.