Ultra-fast charging of electric vehicles: A review of power electronics converter, grid stability and optimal battery consideration in multi-energy systems
The concern about climate change and greenhouse gas emissions has resulted in a steady
shift in the transportation sector from conventional fossil fuel-based combustion vehicles to …
shift in the transportation sector from conventional fossil fuel-based combustion vehicles to …
Model order reduction techniques for physics-based lithium-ion battery management: A survey
To unlock the promise of electrified transportation and smart grids, emerging advanced
battery management systems (BMSs) will play an important role in the health-aware …
battery management systems (BMSs) will play an important role in the health-aware …
State estimation of the Stefan PDE: A tutorial on design and applications to polar ice and batteries
The Stefan PDE system is a representative model for thermal phase change phenomena,
such as melting and solidification, arising in numerous science and engineering processes …
such as melting and solidification, arising in numerous science and engineering processes …
Novel operating modes for the charging of lithium-ion batteries
Conventional battery simulation tools offer current, voltage, and power operating modes.
This article presents General Operating Modes (GOMs), which move beyond these standard …
This article presents General Operating Modes (GOMs), which move beyond these standard …
A Distributed Feedback-based Framework for Nonlinear Aggregative Optimal Control
In this paper, we propose a distributed, first-order, feedback-based approach to solve
nonlinear optimal control problems with aggregative cost functions over networks of …
nonlinear optimal control problems with aggregative cost functions over networks of …
Nonlinear model inversion-based output tracking control for battery fast charging
We propose a novel nonlinear control approach for fast charging of lithium-ion batteries,
where health-and safety-related variables, or their time derivatives, are expressed in an …
where health-and safety-related variables, or their time derivatives, are expressed in an …
Constrained optimal control of monotone systems with applications to battery fast-charging
Enabling fast charging for lithium ion batteries is critical to accelerating the green energy
transition. As such, there has been significant interest in tailored fast-charging protocols …
transition. As such, there has been significant interest in tailored fast-charging protocols …
Optimal Fast Charging of Lithium Ion Batteries: Between Model-Based and Data-Driven Methods
G Tucker, R Drummond… - Journal of The …, 2023 - iopscience.iop.org
Delivering lithium ion batteries capable of fast charging without suffering from accelerated
degradation is an important milestone for transport electrification. Recently, there has been …
degradation is an important milestone for transport electrification. Recently, there has been …
Determination of Fast Battery-Charging Profiles Using an Electrochemical Model and a Direct Optimal Control Approach
This paper describes an approach to determine a fast-charging profile for a lithium-ion
battery by utilising a simplified single-particle electrochemical model and direct collocation …
battery by utilising a simplified single-particle electrochemical model and direct collocation …
Safe battery control using cascade-control-barrier functions
This article proposes a control barrier function (CBF) approach for fast charging and
discharging of batteries under temperature, state of charge (SoC), and terminal voltage …
discharging of batteries under temperature, state of charge (SoC), and terminal voltage …