Litcius/Paper detail

Multiscale BLS-Based Lightweight Prediction Model for Remaining Useful Life of Aero-Engine

Tiantian Xu, Guangjie Han, Hongbo Zhu, Chuan Lin, Jinlin Peng

2024IEEE Transactions on Reliability30 citationsDOI

Abstract

Remaining useful life (RUL) prediction of aero-engines is one of the important issues in research related to engine health management. Although deep learning has made great progress in fault diagnosis research, successful training of deep learning models is very time-consuming and difficult to meet the real-time requirements of online RUL prediction applications. Broad learning systems (BLS) provide an alternative to deep learning networks with low computational resource requirements, fast training time, and incremental scalability. Based on the typical BLS, we propose a new lightweight multiscale BLS (MSBLS). Considering that RUL is influenced by the working condition factor, the discrete wavelet transform is used to generate multiresolution components, and then feature nodes are extracted on top of the components. An elastic net regularization technique is used to constrain the output weights of the nodes, preserving the significant nodes, and finally obtaining a more sparse MSBLS. Experiments are conducted using the NASA publicly available commercial modular aero-propulsion system simulation (C-MAPSS) dataset and the N-CMAPSS dataset, and our proposed MSBLS not only improves the accuracy of RUL prediction but also has a very short training time compared with the latest research methods nowadays.

Topics & Concepts

Computer scienceScalabilityDeep learningArtificial intelligenceModular designMachine learningFeature (linguistics)Data miningDatabasePhilosophyOperating systemLinguisticsFault Detection and Control Systems