Title
Estimation and Fault Diagnosis of Lithium-Ion Batteries: A Fractional-Order System Approach
Document Type
Article
Publication Date
1-1-2018
Publication Title
Mathematical Problems in Engineering
Volume
2018
Abstract
This study investigates estimation and fault diagnosis of fractional-order Lithium-ion battery system. Two simple and common types of observers are designed to address the design of fault diagnosis and estimation for the fractional-order systems. Fractional-order Luenberger observers are employed to generate residuals which are then used to investigate the feasibility of model based fault detection and isolation. Once a fault is detected and isolated, a fractional-order sliding mode observer is constructed to provide an estimate of the isolated fault. The paper presents some theoretical results for designing stable observers and fault estimators. In particular, the notion of stability in the sense of Mittag-Leffler is first introduced to discuss the state estimation error dynamics. Overall, the design of the Luenberger observer as well as the sliding mode observer can accomplish fault detection, fault isolation, and estimation. The effectiveness of the proposed strategy on a three-cell battery string system is demonstrated.
DOI
10.1155/2018/8705363
ISSN
1024123X
E-ISSN
15635147
Recommended Citation
Kong, Shulan; Saif, Mehrdad; and Cui, Guozeng. (2018). Estimation and Fault Diagnosis of Lithium-Ion Batteries: A Fractional-Order System Approach. Mathematical Problems in Engineering, 2018.
https://scholar.uwindsor.ca/electricalengpub/275