OSA:one-class recursive SVM algorithm with negative samples for fault detection

Suvorov, Michail and Ivliev, Sergey and Markarian, Garik and Kolev, Denis and Zvikhachevskiy, Dmitry and Angelov, Plamen (2013) OSA:one-class recursive SVM algorithm with negative samples for fault detection. In: Artificial neural networks and machine learning – ICANN 2013. Lecture Notes in Computer Science . Springer Verlag, Berlin, pp. 194-207. ISBN 9783642407277

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Abstract

In this paper a novel one-class classification approach (called OSA) is proposed. The algorithm is particularly suitable for fault detection in complex technological systems, such as aircraft. This study is based on the capability of one-class support vector machine (SVM) method to classify correctly the observation and measurement data, obtained during the exploitation of the system such as airborne aircraft into a single class of ‘normal’ behavior and, respectively, leave data that is not assigned to this class as suspected anomalies. In order to ensure real time (in flight) application a recursive learning procedure of the method is proposed. The proposed method takes into account both “positive”/“normal” and “negative”/“abnormal” examples of the base class, keeping the overall model structure as an outlier-detection approach. This approach is generic for any fault detection problem (for example in areas such as process control, computer networks, analysis of data from interrogations, etc.). The advantages of the new algorithm based on OSA are verified by comparison with several classifiers, including the traditional one-class SVM. The proposed approach is tested for fault detection problem using real flight data from a large number of aircraft of different make (USA, Western European as well as Russian).

Item Type:
Contribution in Book/Report/Proceedings
Subjects:
?? FLIGHT DATA ANALYSISFAULT DETECTION AND IDENTIFICATIONONE-CLASS SVM ??
ID Code:
70256
Deposited By:
Deposited On:
08 Aug 2014 11:01
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Sep 2023 04:54