基于 ARIMA⁃LSTM 深度学习混合模型的PEMFC 老化预测方法

Yufan Zhang; Yuren Li; Rui Ma; Hongyu Zhang; Bo Liang

doi:10.1051/jnwpu/20234130464

基于 ARIMA⁃LSTM 深度学习混合模型的PEMFC 老化预测方法

Translated title of the contribution: Degradation prediction method of PEMFC based on deep learning hybrid model integrating ARIMA and LSTM

Yufan Zhang, Yuren Li, Rui Ma, Hongyu Zhang, Bo Liang

School of Automation

Northwestern Polytechnical University Xian

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

2 Scopus citations

Abstract

Fuel cell involves many disciplines such as electricity, mechanics, electrochemistry, and thermodynam⁃ ics, and its performance degradation process is complex, involving multi⁃physics, multi⁃scale, multi⁃parts, and multi⁃factors. Thus, it is difficult for a single model to capture all kinds of characteristics of fuel cell simultaneously in degradation prediction. To ensure the prediction accuracy while better fitting the data linearly and nonlinearly, a prediction model of ARIMA combined with LSTM neural network is proposed in this study. The prediction results with residuals are used as features for LSTM prediction work after first predicting the voltage decay data by ARIMA and LSTM. Comparing the hybrid model with the single ARIMA model and the NAR model with support vector regression learning, it is found that the hybrid model performs better in terms of prediction accuracy and prediction performance.

Translated title of the contribution	Degradation prediction method of PEMFC based on deep learning hybrid model integrating ARIMA and LSTM
Original language	Chinese (Traditional)
Pages (from-to)	464-470
Number of pages	7
Journal	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
Volume	41
Issue number	3
DOIs	https://doi.org/10.1051/jnwpu/20234130464
State	Published - Jun 2023

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title = "基于 ARIMA⁃LSTM 深度学习混合模型的PEMFC 老化预测方法",

abstract = "Fuel cell involves many disciplines such as electricity, mechanics, electrochemistry, and thermodynam⁃ ics, and its performance degradation process is complex, involving multi⁃physics, multi⁃scale, multi⁃parts, and multi⁃factors. Thus, it is difficult for a single model to capture all kinds of characteristics of fuel cell simultaneously in degradation prediction. To ensure the prediction accuracy while better fitting the data linearly and nonlinearly, a prediction model of ARIMA combined with LSTM neural network is proposed in this study. The prediction results with residuals are used as features for LSTM prediction work after first predicting the voltage decay data by ARIMA and LSTM. Comparing the hybrid model with the single ARIMA model and the NAR model with support vector regression learning, it is found that the hybrid model performs better in terms of prediction accuracy and prediction performance.",

keywords = "ARIMA, LSTM, degradation prediction, fuel cell",

author = "Yufan Zhang and Yuren Li and Rui Ma and Hongyu Zhang and Bo Liang",

note = "Publisher Copyright: {\textcopyright}2023 Journal of Northwestern Polytechnical University.",

year = "2023",

month = jun,

doi = "10.1051/jnwpu/20234130464",

language = "繁体中文",

volume = "41",

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T1 - 基于 ARIMA⁃LSTM 深度学习混合模型的PEMFC 老化预测方法

AU - Zhang, Yufan

AU - Li, Yuren

AU - Ma, Rui

AU - Zhang, Hongyu

AU - Liang, Bo

PY - 2023/6

Y1 - 2023/6

N2 - Fuel cell involves many disciplines such as electricity, mechanics, electrochemistry, and thermodynam⁃ ics, and its performance degradation process is complex, involving multi⁃physics, multi⁃scale, multi⁃parts, and multi⁃factors. Thus, it is difficult for a single model to capture all kinds of characteristics of fuel cell simultaneously in degradation prediction. To ensure the prediction accuracy while better fitting the data linearly and nonlinearly, a prediction model of ARIMA combined with LSTM neural network is proposed in this study. The prediction results with residuals are used as features for LSTM prediction work after first predicting the voltage decay data by ARIMA and LSTM. Comparing the hybrid model with the single ARIMA model and the NAR model with support vector regression learning, it is found that the hybrid model performs better in terms of prediction accuracy and prediction performance.

AB - Fuel cell involves many disciplines such as electricity, mechanics, electrochemistry, and thermodynam⁃ ics, and its performance degradation process is complex, involving multi⁃physics, multi⁃scale, multi⁃parts, and multi⁃factors. Thus, it is difficult for a single model to capture all kinds of characteristics of fuel cell simultaneously in degradation prediction. To ensure the prediction accuracy while better fitting the data linearly and nonlinearly, a prediction model of ARIMA combined with LSTM neural network is proposed in this study. The prediction results with residuals are used as features for LSTM prediction work after first predicting the voltage decay data by ARIMA and LSTM. Comparing the hybrid model with the single ARIMA model and the NAR model with support vector regression learning, it is found that the hybrid model performs better in terms of prediction accuracy and prediction performance.

KW - ARIMA

KW - LSTM

KW - degradation prediction

KW - fuel cell

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U2 - 10.1051/jnwpu/20234130464

DO - 10.1051/jnwpu/20234130464

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JF - Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University

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ER -

基于 ARIMA⁃LSTM 深度学习混合模型的PEMFC 老化预测方法

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