Residual Statistics-Based Current Sensor Fault Diagnosis for Smart Battery Management

Jian Hu; Xiaolei Bian; Zhongbao Wei; Jianwei Li; Hongwen He

doi:10.1109/JESTPE.2021.3131696

Residual Statistics-Based Current Sensor Fault Diagnosis for Smart Battery Management

Jian Hu, Xiaolei Bian, Zhongbao Wei^*, Jianwei Li, Hongwen He^*

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

34 Citations (Scopus)

Abstract

Current sensor fault diagnostic is critical to the safety of lithium-ion batteries (LIBs) to prevent over-charging and over-discharging. Motivated by this, this article proposes a novel residual statistics-based diagnostic method to detect two typical types of sensor faults, leveraging only the 50 current-voltage samples at the startup phase of the LIB system. In particular, the load current is estimated by using particle swarm optimization (PSO)-based model matching with measurable initial system states. The estimation residuals are analyzed statistically with Monte-Carlo simulation, from which an empirical residual threshold is generated and used for accurate current sensor fault diagnostic. The residual evaluation process is well proved with high robustness to the measurement noises and modeling uncertainties. The proposed method is validated experimentally to be effective in current sensor fault diagnosis with low miss alarm rate (MAR) and false alarm rate (FAR).

Original language	English
Pages (from-to)	2435-2444
Number of pages	10
Journal	IEEE Journal of Emerging and Selected Topics in Power Electronics
Volume	10
Issue number	2
DOIs	https://doi.org/10.1109/JESTPE.2021.3131696
Publication status	Published - 1 Apr 2022

Keywords

Battery management system (BMS)
current sensor fault diagnosis
lithium-ion battery (LIB)
particle swarm optimization (PSO)

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1109/JESTPE.2021.3131696

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title = "Residual Statistics-Based Current Sensor Fault Diagnosis for Smart Battery Management",

abstract = "Current sensor fault diagnostic is critical to the safety of lithium-ion batteries (LIBs) to prevent over-charging and over-discharging. Motivated by this, this article proposes a novel residual statistics-based diagnostic method to detect two typical types of sensor faults, leveraging only the 50 current-voltage samples at the startup phase of the LIB system. In particular, the load current is estimated by using particle swarm optimization (PSO)-based model matching with measurable initial system states. The estimation residuals are analyzed statistically with Monte-Carlo simulation, from which an empirical residual threshold is generated and used for accurate current sensor fault diagnostic. The residual evaluation process is well proved with high robustness to the measurement noises and modeling uncertainties. The proposed method is validated experimentally to be effective in current sensor fault diagnosis with low miss alarm rate (MAR) and false alarm rate (FAR).",

keywords = "Battery management system (BMS), current sensor fault diagnosis, lithium-ion battery (LIB), particle swarm optimization (PSO)",

author = "Jian Hu and Xiaolei Bian and Zhongbao Wei and Jianwei Li and Hongwen He",

note = "Publisher Copyright: {\textcopyright} 2013 IEEE.",

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doi = "10.1109/JESTPE.2021.3131696",

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T1 - Residual Statistics-Based Current Sensor Fault Diagnosis for Smart Battery Management

AU - Hu, Jian

AU - Bian, Xiaolei

AU - Wei, Zhongbao

AU - Li, Jianwei

AU - He, Hongwen

PY - 2022/4/1

Y1 - 2022/4/1

N2 - Current sensor fault diagnostic is critical to the safety of lithium-ion batteries (LIBs) to prevent over-charging and over-discharging. Motivated by this, this article proposes a novel residual statistics-based diagnostic method to detect two typical types of sensor faults, leveraging only the 50 current-voltage samples at the startup phase of the LIB system. In particular, the load current is estimated by using particle swarm optimization (PSO)-based model matching with measurable initial system states. The estimation residuals are analyzed statistically with Monte-Carlo simulation, from which an empirical residual threshold is generated and used for accurate current sensor fault diagnostic. The residual evaluation process is well proved with high robustness to the measurement noises and modeling uncertainties. The proposed method is validated experimentally to be effective in current sensor fault diagnosis with low miss alarm rate (MAR) and false alarm rate (FAR).

AB - Current sensor fault diagnostic is critical to the safety of lithium-ion batteries (LIBs) to prevent over-charging and over-discharging. Motivated by this, this article proposes a novel residual statistics-based diagnostic method to detect two typical types of sensor faults, leveraging only the 50 current-voltage samples at the startup phase of the LIB system. In particular, the load current is estimated by using particle swarm optimization (PSO)-based model matching with measurable initial system states. The estimation residuals are analyzed statistically with Monte-Carlo simulation, from which an empirical residual threshold is generated and used for accurate current sensor fault diagnostic. The residual evaluation process is well proved with high robustness to the measurement noises and modeling uncertainties. The proposed method is validated experimentally to be effective in current sensor fault diagnosis with low miss alarm rate (MAR) and false alarm rate (FAR).

KW - Battery management system (BMS)

KW - current sensor fault diagnosis

KW - lithium-ion battery (LIB)

KW - particle swarm optimization (PSO)

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Residual Statistics-Based Current Sensor Fault Diagnosis for Smart Battery Management

Abstract

Keywords

UN SDGs

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