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Using long-term condition monitoring data with non-Gaussian noise for online diagnostics

Using long-term condition monitoring data with non-Gaussian noise for online diagnostics
Using long-term condition monitoring data with non-Gaussian noise for online diagnostics
The number of timely diagnoses based on condition monitoring data is increasing with the growing usage of monitoring systems. In most of the methods used in these systems, a pre-established fault detection threshold is needed, while there are no specific limit values or thresholds in many cases, especially when the machine is unique. Also, in most actual applications, due to the kind of process and harsh environment, the noise inherent in the observed process exhibits non-Gaussian characteristics, making it a challenging task for diagnostics based on condition monitoring (CM) data. Therefore, this paper introduced a robust methodology based on the switching maximum correntropy Kalman filter (SMCKF) to address the mentioned problems (threshold and online diagnostics in the presence of non-Gaussian noise by using CM data). This approach uses multiple dynamic system models to explain different degradation stages, utilizing robust Bayesian estimation. As this approach is based on dynamic behavior, a threshold for diagnostics is no longer needed. Ultimately, the proposed approach is applied to the online diagnosis of simulated and actual data sets. The results of both simulated and real data sets prove the method’s efficacy.
0888-3270
Shiri, Hamid
7a4304e3-a4bc-4007-961b-29530af225fd
Zimroz, Paweł
30c91d8b-525d-410f-ae8d-51899faebb7a
Wodecki, Jacek
bed412ce-c860-4637-9aee-34685199239d
Wylomanska, Agnieszka
420eb98f-605e-486c-8d33-bd3c2a859be1
Zimroz, Radoslaw
d3d00d36-da1f-411b-8f02-22871182ff08
Szabat, Krzysztof
60d97367-9ec5-422c-9340-5c50d445270d
Shiri, Hamid
7a4304e3-a4bc-4007-961b-29530af225fd
Zimroz, Paweł
30c91d8b-525d-410f-ae8d-51899faebb7a
Wodecki, Jacek
bed412ce-c860-4637-9aee-34685199239d
Wylomanska, Agnieszka
420eb98f-605e-486c-8d33-bd3c2a859be1
Zimroz, Radoslaw
d3d00d36-da1f-411b-8f02-22871182ff08
Szabat, Krzysztof
60d97367-9ec5-422c-9340-5c50d445270d

Shiri, Hamid, Zimroz, Paweł, Wodecki, Jacek, Wylomanska, Agnieszka, Zimroz, Radoslaw and Szabat, Krzysztof (2023) Using long-term condition monitoring data with non-Gaussian noise for online diagnostics. Mechanical Systems and Signal Processing, 200, [110472]. (doi:10.1016/j.ymssp.2023.110472).

Record type: Article

Abstract

The number of timely diagnoses based on condition monitoring data is increasing with the growing usage of monitoring systems. In most of the methods used in these systems, a pre-established fault detection threshold is needed, while there are no specific limit values or thresholds in many cases, especially when the machine is unique. Also, in most actual applications, due to the kind of process and harsh environment, the noise inherent in the observed process exhibits non-Gaussian characteristics, making it a challenging task for diagnostics based on condition monitoring (CM) data. Therefore, this paper introduced a robust methodology based on the switching maximum correntropy Kalman filter (SMCKF) to address the mentioned problems (threshold and online diagnostics in the presence of non-Gaussian noise by using CM data). This approach uses multiple dynamic system models to explain different degradation stages, utilizing robust Bayesian estimation. As this approach is based on dynamic behavior, a threshold for diagnostics is no longer needed. Ultimately, the proposed approach is applied to the online diagnosis of simulated and actual data sets. The results of both simulated and real data sets prove the method’s efficacy.

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Accepted/In Press date: 22 May 2023
e-pub ahead of print date: 12 June 2023
Published date: 12 June 2023
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Identifiers

Local EPrints ID: 503324
URI: http://eprints.soton.ac.uk/id/eprint/503324
DOI: doi:10.1016/j.ymssp.2023.110472
ISSN: 0888-3270
PURE UUID: 44476b5f-bb8d-4cca-85c1-db56a5f75ab4
ORCID for Hamid Shiri: ORCID iD orcid.org/0000-0002-1878-4718

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Date deposited: 29 Jul 2025 16:42
Last modified: 22 Aug 2025 02:49

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Contributors

Author: Hamid Shiri ORCID iD
Author: Paweł Zimroz
Author: Jacek Wodecki
Author: Agnieszka Wylomanska
Author: Radoslaw Zimroz
Author: Krzysztof Szabat

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