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Article Dans Une Revue Applied Intelligence Année : 2016

Feature Selection for fault detection systems : application to the Tennessee Eastman Process.

Résumé

In fault detection systems, massive amount of data gathered from the life-cycle of equipment is often used to learn models or classifiers that aims at diagnosing different kind of errors or failures. Among this huge quantity of information, some features (or sets of features) are more correlated with the kind of failures than others. The presence of irrelevant features might affect the performance of the classifier. To improve the performance of a detection system, feature selection is hence a key step. We propose in this paper an algorithm named STRASS, that aims at detecting relevant features for classification purposes. In certain cases, when there exists a strong correlation between some features and the associated class, classical feature selection algorithms fail at selecting the most relevant features. In order to cope with this problem, STRASS algorithm makes use of k-way correlation between features and the class to select relevant features. To assess the performance of STRASS, we apply it on simulated data collected from the Tennessee Eastman chemical plant simulator. The Tennessee Eastman process (TEP) has been used in many fault detection studies and three specific faults are not well discriminated with classical algorithms. The results obtained by STRASS are compared to those obtained with reference feature selection algorithms. We show that the features selected by STRASS always improve the performance of a classifier compared to the whole set of original features and that the obtained classification is better than with most of the other feature selection algorithms.

Domaines

Automatique
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Dates et versions

hal-01303484 , version 1 (18-04-2016)

Identifiants

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Brigitte Chebel-Morello, Simon Malinowski, Hafida Senoussi. Feature Selection for fault detection systems : application to the Tennessee Eastman Process.. Applied Intelligence, 2016, 44 (1), pp.111-122. ⟨10.1007/s10489-015-0694-6⟩. ⟨hal-01303484⟩
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