Multi-Objective Bayesian Optimization of Lithium-Ion Battery Cells for Electric Vehicle Operational Scenarios

Abstract: The development of lithium-ion batteries (LIBs) based on current practice allows an energy density increase estimated at 10% per year. However, the required power for portable electronic devices is predicted to increase at a much faster rate, namely 20% per year. Similarly, the global electric vehicle battery capacity is expected to increase from around 170 GWh per year today to 1.5 TWh per year in 2030—this is an increase of 125% per year. Without a breakthrough in battery design technology, it will be diffic… Show more

“…4 BO has been successfully applied to many materials science problems. Some recent applications include drug design, 7,8 lithium-ion battery optimisation, 9,10 optical material design, [11][12][13] optimisation of thermoelectric properties 14 and energy predictions of materials. 15,16 It has also been applied to optimise operational conditions such as heating conditions 17 and equipment configurations.…”

Bayesian optimisation for efficient material discovery: a mini review

“…4 BO has been successfully applied to many materials science problems. Some recent applications include drug design, 7,8 lithium-ion battery optimisation, 9,10 optical material design, [11][12][13] optimisation of thermoelectric properties 14 and energy predictions of materials. 15,16 It has also been applied to optimise operational conditions such as heating conditions 17 and equipment configurations.…”

Bayesian optimisation for efficient material discovery: a mini review

Method for sizing and selecting batteries for the energy storage system of an electric vehicle

Machine learning-assisted multi-objective optimization of battery manufacturing from synthetic data generated by physics-based simulations