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Volume 95, Issue 3
24 January 2023
Aircraft Engineering and Aerospace Technology Cover Image for Volume 95, Issue 3
Editors
Phil Webb
Phil Webb
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Research Article| October 03 2022

An innovation-based actuator/surface fault detection, isolation and filter tuning Available to Purchase

Chingiz Hajiyev
Chingiz Hajiyev
Department of Aeronautical Engineering,
Istanbul Technical University
, Istanbul,
Türkiye

Chingiz Hajiyev graduated from the Faculty of Automatic Control Systems of Flying Apparatus, Moscow Aviation Institute, Moscow, Russia, with honors diploma in 1981. He received his PhD and DSc (Eng.) in process control in 1987 and 1993, respectively. Since 1996, he has been with the Department of Aeronautics and Astronautics, Istanbul Technical University, Istanbul, Turkey, where he is currently a Professor and from 2016 he is the Head of Aeronautical Engineering Department. He is the author of about 550 scientific publications including 15 books, 23 book chapters and more than 350 international journal and international conference papers. He is in the editorial board of the several international journals. His research interests include system identification, fault detection and isolation, fault tolerant aircraft control system design, reconfigurable flight control systems, satellite attitude determination and control, Kalman filtering and integrated navigation systems.

Chingiz Hajiyev can be contacted at: cingiz@itu.edu.tr
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Author & Article Information
Chingiz Hajiyev can be contacted at: cingiz@itu.edu.tr
Publisher: Emerald Publishing
Received: May 14 2022
Revision Received: August 02 2022
Accepted: August 27 2022
Online ISSN: 1758-4213
Print ISSN: 1748-8842
© Emerald Publishing Limited
2022
Emerald Publishing Limited
Licensed re-use rights only
Aircraft Engineering and Aerospace Technology: An International Journal (2023) 95 (3): 464–473.
https://doi.org/10.1108/AEAT-05-2022-0130
Article history
Received:
May 14 2022
Revision Received:
August 02 2022
Accepted:
August 27 2022
Purpose

The purpose of the paper is to present an innovation-based new actuator/surface fault detection and isolation (FDI) method, which is sensitive to the changes in the innovation mean of the Kalman filter (KF) and the KF tuning method for the case of actuator/surface failure.

Design/methodology/approach

The multiple system noise scale factors (MSNSFs) are used in this method as the monitoring statistics. MSNSFs are determined to make it possible to perform the actuator/surface FDI operations simultaneously.

Findings

The introduced FDI algorithm can detect and isolate the loss of effectiveness type actuator/surface faults in real time. The proposed KF tuning method works effectively against actuator/surface fault. The actuator/surface fault detection, isolation and filter tuning are achieved by just using a simple modification over the conventional KF.

Originality/value

The MSNSF-based actuator/surface fault detection, isolation and filter tuning algorithms are investigated together for the first time. The actuator/surface FDI operations are performed simultaneously.

Keywords:
Fault detection, Fault isolation, Kalman filters, Filter tuning, Innovation sequence, Estimation, Unmanned aerial vehicle
© Emerald Publishing Limited
2022
Emerald Publishing Limited
Licensed re-use rights only
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