An integrated approach to helicopter planetary gear fault diagnosis and failure prognosis

Author

Patrick, Romano ; Orchard, Marcos E. ; Zhang, Bin ; Koelemay, Michael D. ; Kacprzynski, Gregory J. ; Ferri, Aldo A. ; Vachtsevanos, George J.

Author_Institution

Georgia Inst. of Technol., Atlanta

fYear

2007

fDate

17-20 Sept. 2007

Firstpage

547

Lastpage

552

Abstract

This paper introduces the design of an integrated framework for on-board fault diagnosis and failure prognosis of a helicopter transmission component, and describes briefly its main modules. It suggests means to (1) validate statistically and pre-process sensor data (vibration), (2) integrate model-based diagnosis and prognosis, (3) extract useful features or condition indicators from data de-noised by blind deconvolution, and (4) combine Bayesian estimation algorithms and measurements to detect and identify the fault and predict remaining useful life with specified confidence and minimum false alarms.

Keywords

aircraft testing; fault diagnosis; helicopters; Bayesian estimation; failure prognosis; fault diagnosis; helicopter; on board; planetary gear; transmission component; Bayesian methods; Data mining; Deconvolution; Fault diagnosis; Feature extraction; Gears; Helicopters; Predictive models; Sensor phenomena and characterization; Vibration measurement;

fLanguage

English

Publisher

ieee

Conference_Titel

Autotestcon, 2007 IEEE

Conference_Location

Baltimore, MD

ISSN

1088-7725

Print_ISBN

978-1-4244-1239-6

Electronic_ISBN

1088-7725

Type

conf

DOI

10.1109/AUTEST.2007.4374266

Filename

4374266