A4 Refereed article in a conference publication
A Deep Auto-Encoder based Approach for Intrusion Detection System
Authors: Fatimeh Farahnakian, Jukka Heikkonen
Editors: IEEE
Conference name: International Conference on Advanced Communications Technology
Publication year: 2018
Book title : 2018 20th International Conference on Advanced Communication Technology (ICACT)
Journal name in source: 2018 20TH INTERNATIONAL CONFERENCE ON ADVANCED COMMUNICATION TECHNOLOGY (ICACT)
Journal acronym: INT CONF ADV COMMUN
First page : 178
Last page: 183
Number of pages: 6
ISBN: 978-1-5386-4688-5
eISBN: 978-11-88428-01-4
ISSN: 1738-9445
DOI: https://doi.org/10.23919/ICACT.2018.8323688
Abstract
One of the most challenging problems facing network operators today is network attacks identification due to extensive number of vulnerabilities in computer systems and creativity of attackers. To address this problem, we present a deep learning approach for intrusion detection systems. Our approach uses Deep Auto-Encoder (DAE) as one of the most well-known deep learning models. The proposed DAE model is trained in a greedy layer-wise fashion in order to avoid overfitting and local optima. The experimental results on the KDD-CUP'99 dataset show that our approach provides substantial improvement over other deep learning-based approaches in terms of accuracy, detection rate and false alarm rate.
One of the most challenging problems facing network operators today is network attacks identification due to extensive number of vulnerabilities in computer systems and creativity of attackers. To address this problem, we present a deep learning approach for intrusion detection systems. Our approach uses Deep Auto-Encoder (DAE) as one of the most well-known deep learning models. The proposed DAE model is trained in a greedy layer-wise fashion in order to avoid overfitting and local optima. The experimental results on the KDD-CUP'99 dataset show that our approach provides substantial improvement over other deep learning-based approaches in terms of accuracy, detection rate and false alarm rate.
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