Combining Non-Parametric and Parametric Models for Stable and Computationally Efficient Battery Health Estimation

IF 1 Q4 AUTOMATION & CONTROL SYSTEMS Mechatronic Systems and Control Pub Date : 2020-10-05 DOI:10.1115/DSCC2020-3180
A. Aitio, D. Howey
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引用次数: 4

Abstract

Equivalent circuit models for batteries are commonly used in electric vehicle battery management systems to estimate state of charge and other important latent variables. They are computationally inexpensive, but suffer from a loss of accuracy over the full range of conditions that may be experienced in real-life. One reason for this is that the model parameters, such as internal resistance, change over the lifetime of the battery due to degradation. However, estimating long term changes is challenging, because parameters also change with state of charge and other variables. To address this, we modelled the internal resistance parameter as a function of state of charge and degradation using a Gaussian process (GP). This was performed computationally efficiently using an algorithm [1] that interprets a GP to be the solution of a linear time-invariant stochastic differential equation. As a result, inference of the posterior distribution of the GP scales as 𝒪(n) and can be implemented recursively using a Kalman filter.
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结合非参数模型和参数模型进行稳定高效的电池健康估计
电池等效电路模型是电动汽车电池管理系统中常用的一种估算充电状态和其他重要潜在变量的方法。它们在计算上不昂贵,但在现实生活中可能经历的所有条件下都存在准确性损失。其中一个原因是,模型参数,如内阻,随着电池寿命的退化而变化。然而,估计长期变化是具有挑战性的,因为参数也随着电荷状态和其他变量而变化。为了解决这个问题,我们使用高斯过程(GP)将内阻参数建模为电荷状态和退化的函数。这是通过一种算法[1]高效地计算完成的,该算法将GP解释为线性时不变随机微分方程的解。因此,将GP尺度的后验分布推断为 (n),并可以使用卡尔曼滤波器递归地实现。
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来源期刊
Mechatronic Systems and Control
Mechatronic Systems and Control AUTOMATION & CONTROL SYSTEMS-
CiteScore
1.40
自引率
66.70%
发文量
27
期刊介绍: This international journal publishes both theoretical and application-oriented papers on various aspects of mechatronic systems, modelling, design, conventional and intelligent control, and intelligent systems. Application areas of mechatronics may include robotics, transportation, energy systems, manufacturing, sensors, actuators, and automation. Techniques of artificial intelligence may include soft computing (fuzzy logic, neural networks, genetic algorithms/evolutionary computing, probabilistic methods, etc.). Techniques may cover frequency and time domains, linear and nonlinear systems, and deterministic and stochastic processes. Hybrid techniques of mechatronics that combine conventional and intelligent methods are also included. First published in 1972, this journal originated with an emphasis on conventional control systems and computer-based applications. Subsequently, with rapid advances in the field and in view of the widespread interest and application of soft computing in control systems, this latter aspect was integrated into the journal. Now the area of mechatronics is included as the main focus. A unique feature of the journal is its pioneering role in bridging the gap between conventional systems and intelligent systems, with an equal emphasis on theory and practical applications, including system modelling, design and instrumentation. It appears four times per year.
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