REMAINING USEFUL LIFE PREDICTION OF AEROENGINES BASED ON CR-GAN AND CONVLSTM

Zhiqiang Cai; Chaoran Wei; Wei Wang; Shuai Zhang; Yan Wang

doi:10.1049/icp.2025.3549

REMAINING USEFUL LIFE PREDICTION OF AEROENGINES BASED ON CR-GAN AND CONVLSTM

Zhiqiang Cai
, Chaoran Wei
, Wei Wang
, Shuai Zhang
, Yan Wang

School of Mechanical Engineering

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Conference article › peer-review

Abstract

Reliable forecasting of the remaining useful life (RUL) of aero-engines is essential for maintaining operational safety and for reducing overall maintenance expenses. However, this task relies heavily on the availability of sufficient run-to-failure data, which are often costly and difficult to obtain. To address these limitations, a Convolutional Recurrent Generative Adversarial Network (CR-GAN) is proposed. The CR-GAN framework is utilized to produce synthetic data of high fidelity. The artificial samples are integrated with real measurements to build an expanded training set, which is then applied for training a ConvLSTM driven RUL prediction model. Validation of the method is carried out on the CMAPSS dataset, where its performance is examined through comparative analyses and ablation experiments. The findings indicate that the proposed strategy attains superior prediction accuracy, reflected by notable enhancements in both the root mean square error and Score indicators.

Original language	English
Pages (from-to)	1085-1092
Number of pages	8
Journal	IET Conference Proceedings
Volume	2025
Issue number	35
DOIs	https://doi.org/10.1049/icp.2025.3549
State	Published - 1 Dec 2025
Event	15th International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering, QR2MSE 2025 - Hohhot, China Duration: 23 Jul 2025 → 26 Jul 2025

Keywords

AIRCRAFT ENGINES
GENERATIVE ADVERSARIAL NETWORKS
NEURAL NETWORKS
REMAINING USEFUL LIFE
TIME SERIES

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10.1049/icp.2025.3549

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title = "REMAINING USEFUL LIFE PREDICTION OF AEROENGINES BASED ON CR-GAN AND CONVLSTM",

abstract = "Reliable forecasting of the remaining useful life (RUL) of aero-engines is essential for maintaining operational safety and for reducing overall maintenance expenses. However, this task relies heavily on the availability of sufficient run-to-failure data, which are often costly and difficult to obtain. To address these limitations, a Convolutional Recurrent Generative Adversarial Network (CR-GAN) is proposed. The CR-GAN framework is utilized to produce synthetic data of high fidelity. The artificial samples are integrated with real measurements to build an expanded training set, which is then applied for training a ConvLSTM driven RUL prediction model. Validation of the method is carried out on the CMAPSS dataset, where its performance is examined through comparative analyses and ablation experiments. The findings indicate that the proposed strategy attains superior prediction accuracy, reflected by notable enhancements in both the root mean square error and Score indicators.",

keywords = "AIRCRAFT ENGINES, GENERATIVE ADVERSARIAL NETWORKS, NEURAL NETWORKS, REMAINING USEFUL LIFE, TIME SERIES",

author = "Zhiqiang Cai and Chaoran Wei and Wei Wang and Shuai Zhang and Yan Wang",

note = "Publisher Copyright: {\textcopyright} The Institution of Engineering \& Technology 2025.; 15th International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering, QR2MSE 2025 ; Conference date: 23-07-2025 Through 26-07-2025",

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AU - Cai, Zhiqiang

AU - Wei, Chaoran

AU - Wang, Wei

AU - Zhang, Shuai

AU - Wang, Yan

N1 - Publisher Copyright: © The Institution of Engineering & Technology 2025.

PY - 2025/12/1

Y1 - 2025/12/1

N2 - Reliable forecasting of the remaining useful life (RUL) of aero-engines is essential for maintaining operational safety and for reducing overall maintenance expenses. However, this task relies heavily on the availability of sufficient run-to-failure data, which are often costly and difficult to obtain. To address these limitations, a Convolutional Recurrent Generative Adversarial Network (CR-GAN) is proposed. The CR-GAN framework is utilized to produce synthetic data of high fidelity. The artificial samples are integrated with real measurements to build an expanded training set, which is then applied for training a ConvLSTM driven RUL prediction model. Validation of the method is carried out on the CMAPSS dataset, where its performance is examined through comparative analyses and ablation experiments. The findings indicate that the proposed strategy attains superior prediction accuracy, reflected by notable enhancements in both the root mean square error and Score indicators.

AB - Reliable forecasting of the remaining useful life (RUL) of aero-engines is essential for maintaining operational safety and for reducing overall maintenance expenses. However, this task relies heavily on the availability of sufficient run-to-failure data, which are often costly and difficult to obtain. To address these limitations, a Convolutional Recurrent Generative Adversarial Network (CR-GAN) is proposed. The CR-GAN framework is utilized to produce synthetic data of high fidelity. The artificial samples are integrated with real measurements to build an expanded training set, which is then applied for training a ConvLSTM driven RUL prediction model. Validation of the method is carried out on the CMAPSS dataset, where its performance is examined through comparative analyses and ablation experiments. The findings indicate that the proposed strategy attains superior prediction accuracy, reflected by notable enhancements in both the root mean square error and Score indicators.

KW - AIRCRAFT ENGINES

KW - GENERATIVE ADVERSARIAL NETWORKS

KW - NEURAL NETWORKS

KW - REMAINING USEFUL LIFE

KW - TIME SERIES

UR - https://www.scopus.com/pages/publications/105038575036

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DO - 10.1049/icp.2025.3549

M3 - 会议文章

AN - SCOPUS:105038575036

SN - 2732-4494

VL - 2025

SP - 1085

EP - 1092

JO - IET Conference Proceedings

JF - IET Conference Proceedings

IS - 35

T2 - 15th International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering, QR2MSE 2025

Y2 - 23 July 2025 through 26 July 2025

ER -

REMAINING USEFUL LIFE PREDICTION OF AEROENGINES BASED ON CR-GAN AND CONVLSTM

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Keywords

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