Physics-based models of electrochemical cells are of great interest for the future battery management systems (BMSs), due to their accuracy and capability to predict cell physical states. One of their main disadvantages, when compared to equivalent circuit models, is the fact that they rely on numerous parameters. The identification of these parameters is difficult and usually needs the tear-down of the cell and detailed electrochemical analyses. In this work, we address this issue by developing a novel non-invasive procedure for the parameter identification of a single-particle model (SPM) of a Li-ion cell. The main contributions are: (i) the reformulation of the SPM in order to achieve a minimum number of grouped parameters to be identifi...
Advanced battery management systems rely on dynamical models in order to provide safe and profitable...
Lithium cells are typically modelled through equivalent electrical networks whose parameters are tun...
© 2016 IEEE. Battery modelling is a significant component of advanced Battery Management Systems (BM...
This paper investigates the identifiability and estimation of the parameters of the single particle ...
This thesis investigates novel algorithms for enabling the use of first-principle electrochemical mo...
The Single-Particle Model (SPM) of Li ion cell is a computationally efficient model for simulating L...
The dynamic characteristics of power batteries directly affect the performance of electric vehicles,...
Advanced battery management systems rely on mathematical models to guarantee optimal functioning of ...
Advanced battery management systems rely on mathematical models to guarantee optimal functioning of ...
Lithium-ion batteries are indispensable in various applications owing to their high specific energy ...
The parameterization of a physico-chemical model constitutes a critical part in model development. C...
Due to high energy density of Li ion cells, rechargeable Li ion batteries are used extensive...
Presented here, is an extensive 35 parameter experimental data set of a cylindrical 21700 commercial...
To draw reliable conclusions about the internal state of a lithium-ion battery or about ageing proce...
Today lithium-ion batteries are used in many applications, e.g. smart phones, electric vehicles. Pre...
Advanced battery management systems rely on dynamical models in order to provide safe and profitable...
Lithium cells are typically modelled through equivalent electrical networks whose parameters are tun...
© 2016 IEEE. Battery modelling is a significant component of advanced Battery Management Systems (BM...
This paper investigates the identifiability and estimation of the parameters of the single particle ...
This thesis investigates novel algorithms for enabling the use of first-principle electrochemical mo...
The Single-Particle Model (SPM) of Li ion cell is a computationally efficient model for simulating L...
The dynamic characteristics of power batteries directly affect the performance of electric vehicles,...
Advanced battery management systems rely on mathematical models to guarantee optimal functioning of ...
Advanced battery management systems rely on mathematical models to guarantee optimal functioning of ...
Lithium-ion batteries are indispensable in various applications owing to their high specific energy ...
The parameterization of a physico-chemical model constitutes a critical part in model development. C...
Due to high energy density of Li ion cells, rechargeable Li ion batteries are used extensive...
Presented here, is an extensive 35 parameter experimental data set of a cylindrical 21700 commercial...
To draw reliable conclusions about the internal state of a lithium-ion battery or about ageing proce...
Today lithium-ion batteries are used in many applications, e.g. smart phones, electric vehicles. Pre...
Advanced battery management systems rely on dynamical models in order to provide safe and profitable...
Lithium cells are typically modelled through equivalent electrical networks whose parameters are tun...
© 2016 IEEE. Battery modelling is a significant component of advanced Battery Management Systems (BM...