Author:
Xu Yuhui,Han Dongyang,Jiang Yimin,Li Rourou,Shu Junqing,Tao Jianfeng,Xia Tangbin
Abstract
Rotating components often run continuously at high speed under heavy load, resulting in variable failure modes. Because a priori not-considered fault may occur during the actual operation, it is significant to develop methods that can identify both pre-known types of faults and unknown types of faults. In this study, an ensemble framework based on partial dense convolutional neural networks with multiple diversity enhancement strategies (MDE PD-CNN ensemble) is proposed. Firstly, PD-CNN is employed to improve the generalization ability of the base model. Variety PD-CNN are constructed under multiple diversity enhancement strategies. Furthermore, differences in the output of samples on different base models are measured to detect unknown faults. Both known and unknown faults can be accurately diagnosed based on the ensemble procedure with the difference indicator. Experiments on bearing and gear datasets are conducted to demonstrate the superiority of the proposed ensemble framework.
Subject
General Physics and Astronomy
Reference22 articles.
1. Novel Convolutional Neural Network (NCNN) for the Diagnosis of Bearing Defects in Rotary Machinery;Kumar;IEEE Transactions on Instrumentation and Measurement,2021
2. Predictive maintenance of systems subject to hard failure based on proportional hazards model;Hu;Reliability Engineering and System Safety,2020
3. Artificial intelligence for fault diagnosis of rotating machinery: A review;Liu;Mechanical Systems and Signal Processing,2018
4. Tribo-informatics: Concept, architecture, and case study;Zhang;Friction,2021
5. Applications of machine learning to machine fault diagnosis: A review and roadmap;Lei;Mechanical Systems and Signal Processing,2020