Paper Info
Title
Bearing Fault Diagnosis Using an Extended Variable Structure Feedback Linearization Observer.
Abstract
The rolling element bearing is a significant component in rotating machinery. Suitable bearing fault detection and diagnosis (FDD) is vital to maintaining machine operations in a safe and healthy state. To address this issue, an extended observer-based FDD method is proposed, which uses a variable structure feedback linearization observer (FLO). The traditional feedback linearization observer is stable; however, this technique suffers from a lack of robustness. The proposed variable structure technique was used to improve the robustness of the fault estimation while reducing the uncertainties in the feedback linearization observer. The effectiveness of the proposed FLO procedure for the identification of outer, inner, and ball faults was tested using the Case Western University vibration dataset. The proposed model outperformed the variable structure observer (VSO), traditional feedback linearization observer (TFLO), and proportional-integral observer (PIO) by achieving average performance improvements of 5.5%, 8.5%, and 18.5%, respectively.
Year
DOI
Venue
2018
10.3390/s18124359
SENSORS
Keywords
Field
DocType
bearing fault detection,feedback linearization observer,model-reference fault diagnosis,variable structure observer,proportional integral observer
Control theory,Feedback linearization,Electronic engineering,Bearing (mechanical),Engineering,Observer (quantum physics)
Journal
Volume
Issue
ISSN
18
12.0
1424-8220
Citations 
PageRank 
References 
0
0.34
19
Authors
2
Name
Order
Citations
PageRank
Farzin Piltan144.81
Jong Myon Kim214432.36