A tracking problem for the state of charge in a electrochemical Li-ion battery model

IF 1 4区 数学 Q1 MATHEMATICS
Esteban Hernández, C. Prieur, Eduardo Cerpa
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引用次数: 1

Abstract

In this paper the Single Particle Model is used to describe the behavior of a Li-ion battery. The main goal is to design a feedback input current in order to regulate the State of Charge (SOC) to a prescribed reference trajectory. In order to do that, we use the boundary ion concentration as output. First, we measure it directly and then we assume the existence of an appropriate estimator, which has been established in the literature using voltage measurements. By applying backstepping and Lyapunov tools, we are able to build observers and to design output feedback controllers giving a positive answer to the SOC tracking problem. We provide convergence proofs and perform some numerical simulations to illustrate our theoretical results.
电化学锂离子电池模型中电荷状态的跟踪问题
本文采用单粒子模型来描述锂离子电池的性能。主要目标是设计一个反馈输入电流,以便将荷电状态(SOC)调节到规定的参考轨迹。为了做到这一点,我们用边界离子浓度作为输出。首先,我们直接测量它,然后我们假设存在一个适当的估计量,这已经在文献中建立了使用电压测量。通过应用回溯和Lyapunov工具,我们能够构建观察者并设计输出反馈控制器,为SOC跟踪问题提供积极的答案。我们提供了收敛性证明,并进行了一些数值模拟来说明我们的理论结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Mathematical Control and Related Fields
Mathematical Control and Related Fields MATHEMATICS, APPLIED-MATHEMATICS
CiteScore
2.50
自引率
8.30%
发文量
67
期刊介绍: MCRF aims to publish original research as well as expository papers on mathematical control theory and related fields. The goal is to provide a complete and reliable source of mathematical methods and results in this field. The journal will also accept papers from some related fields such as differential equations, functional analysis, probability theory and stochastic analysis, inverse problems, optimization, numerical computation, mathematical finance, information theory, game theory, system theory, etc., provided that they have some intrinsic connections with control theory.
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