Citation

Zhao X, Qin Y, Fu H, Jia L, Zhang X. Smart Resil. Transp. 2021; 3(1): 52-65.

Copyright

(Copyright © 2021, Emerald Group Publishing)

DOI

10.1108/SRT-09-2020-0006

PMID

unavailable

Abstract

PURPOSE Fault diagnosis methods based on blind source separation (BSS) for rolling element bearings are necessary tools to prevent any unexpected accidents. In the field application, the actual signal acquisition is usually hindered by certain restrictions, such as the limited number of signal channels. The purpose of this study is to fulfill the weakness of the existed BSS method.

DESIGN/METHODOLOGY/APPROACH To deal with this problem, this paper proposes a blind source extraction (BSE) method for bearing fault diagnosis based on empirical mode decomposition (EMD) and temporal correlation. First, a single-channel undetermined BSS problem is transformed into a determined BSS problem using the EMD algorithm. Then, the desired fault signal is extracted from selected intrinsic mode functions with a multi-shift correlation method.

FINDINGS Experimental results prove the extracted fault signal can be easily identified through the envelope spectrum. The application of the proposed method is validated using simulated signals and rolling element bearing signals of the train axle.

ORIGINALITY/VALUE This paper proposes an underdetermined BSE method based on the EMD and the temporal correlation method for rolling element bearings. A simulated signal and two bearing fault signal from the train rolling element bearings show that the proposed method can well extract the bearing fault signal. Note that the proposed method can extract the periodic fault signal for bearing fault diagnosis. Thus, it should be helpful in the diagnosis of other rotating machinery, such as gears or blades.

Language: en

Keywords

Blind source extraction; Fault diagnosis; Signal decomposition; Temporal correlation