Steady-State Fault Detection with Full-Flight Data

Weiss, M. Jerry; Staudacher, Stephan; Becchio, Duilio; Keller, Christian; Mathes, Jürgen

doi:10.3390/machines10020140

Cited by 7 publications

(6 citation statements)

References 54 publications

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“…When a robust diagnostic approach is needed, the data that are to be fed to a gas path diagnostic procedure need to have been obtained from steady-state operation. This is a well-recognized fact, as can be concluded from publications originating from the personnel of engine manufacturers [6][7][8]. A question that arises then is: how is it ensured that this requirement is fulfilled at the operating point the data come from?…”

Section: Introductionmentioning

confidence: 99%

“…The fact that steady-state operation constitutes the basis for reliable diagnosis using flight data has led the efforts aiming to characterize states as "quasi steady-state", as reported in [6,7]. The early method introduced in [10] was used as the basis for the very recent (2022) work of [8]. Excellent reviews on the usefulness of gas turbine steady-state detection and methods, developed until recently, are presented in [8,16].…”

Section: Introductionmentioning

confidence: 99%

“…The early method introduced in [10] was used as the basis for the very recent (2022) work of [8]. Excellent reviews on the usefulness of gas turbine steady-state detection and methods, developed until recently, are presented in [8,16].…”

Section: Introductionmentioning

confidence: 99%

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Determining Steady-State Operation Criteria Using Transient Performance Modelling and Steady-State Diagnostics

Mathioudakis,

Aretakis,

Alexiou

2024

Applied Sciences

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Data from the steady-state operation of gas turbine engines are used in gas path diagnostic procedures. A method to identify steady-state operation is thus required. This paper initially explains and demonstrates the factors that cause a deviation in engine health when transient data are used for diagnosis and shows that there is a threshold in the slope of time traces, below which the variation in engine health parameters is acceptable. A methodology for deriving a criterion for steady-state operation based on actual flight data is then presented. The slope of the exhaust gas temperature variation with time and the size of its time-series window, from which this slope is determined, are the required parameters that must be specified when applying this criterion. It is found that the values of these parameters must be selected so that a sufficient number of steady-state points are available without compromising the accuracy of the diagnostic procedure.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Determining Steady-State Operation Criteria Using Transient Performance Modelling and Steady-State Diagnostics

Mathioudakis,

Aretakis,

Alexiou

2024

Applied Sciences

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“…Currently, most airlines adopted Quick Access Recorders (QAR) for data acquisition, providing flight data continuously sampled at frequencies of 1 Hz and more, which is also referred to as full-flight data covering the whole flight. The availability of these data obtained from a large variety of sensors enables the introduction of new methodologies to assess engine condition, which offers the chance to detect engine faults within one flight more reliably to support more efficient in-service operations and maintenance decisions [ 6 , 7 ]. An approach for fault detection based on steady-state flight regimes of full-flight data is demonstrated in [ 8 , 9 ].…”

Section: Introductionmentioning

confidence: 99%

“…An approach for fault detection based on steady-state flight regimes of full-flight data is demonstrated in [ 8 , 9 ]. Weiss et al proposed a steady-state fault detection framework with complete flight data using a one-class support vector machine, and high detection rates are demonstrated for various gas path component faults using synthesized datasets derived from full-flight data of commercially operated flights [ 6 ]. Hartwell et al propose a practical and computationally inexpensive method for in-flight real-time anomaly detection based on a convolutional neural network.…”

Section: Introductionmentioning

confidence: 99%

Construction of Data-Driven Performance Digital Twin for a Real-World Gas Turbine Anomaly Detection Considering Uncertainty

Lee

et al. 2023

Sensors

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Anomaly detection and failure prediction of gas turbines is of great importance for ensuring reliable operation. This work presents a novel approach for anomaly detection based on a data-driven performance digital twin of gas turbine engines. The developed digital twin consists of two parts: uncertain performance digital twin (UPDT) and fault detection capability. UPDT is a probabilistic digital representation of the expected performance behavior of real-world gas turbine engines operating under various conditions. Fault detection capability is developed based on detecting UPDT outputs that have low probability under the training distribution. A novel anomaly measure based on the first Wasserstein distance is proposed to characterize the entire flight data, and a threshold can be applied to this measure to detect anomaly flights. The proposed UPDT with uncertainty quantification is trained with the sensor data from an individual physical reality and the outcome of the UPDT is intended to deliver the health assessment and fault detection results to support operation and maintenance decision-making. The proposed method is demonstrated on a real-world dataset from a typical type of commercial turbofan engine and the result shows that the F1 score reaches a maximum of 0.99 with a threshold of 0.45. The case study demonstrated that the proposed novel anomaly detection method can effectively identify the abnormal samples, and it is also possible to isolate anomalous behavior in a single performance signal, which is helpful for further fault diagnosis once an anomaly is detected.

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Deep learning framework for gas turbine performance digital twin and degradation prognostics from airline operator perspective

Sun

Yan

Ying

et al. 2023

Reliability Engineering & System Safety

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Steady-State Fault Detection with Full-Flight Data

Cited by 7 publications

References 54 publications

Determining Steady-State Operation Criteria Using Transient Performance Modelling and Steady-State Diagnostics

Determining Steady-State Operation Criteria Using Transient Performance Modelling and Steady-State Diagnostics

Construction of Data-Driven Performance Digital Twin for a Real-World Gas Turbine Anomaly Detection Considering Uncertainty

Deep learning framework for gas turbine performance digital twin and degradation prognostics from airline operator perspective

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