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In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 11, Heft 4, S. 93-114
ISSN: 0897-0823
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In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 11, Heft 4, S. 93-114
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 10, Heft 1, S. 121-125
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 10, Heft 2, S. 118-125
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 10, Heft 3, S. 116-125
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 9, Heft 4, S. 113-118
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 9, S. 92-93
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 9, Heft 2, S. 91-94
ISSN: 0897-0823
In: Airpower journal: APJ ; the professional journal of the United States Air Force, Band 9, Heft 1, S. 91-93
ISSN: 0897-0823
In: National municipal review, Band 4, Heft 2, S. 332-332
ISSN: 0256-7873
250 261 29 ; S ; [EN] This study presents a novel Hybrid Intelligent Intrusion Detection System (IDS) known as RT-MOVICABIDS that incorporates temporal control. One of its main goals is to facilitate real-time Intrusion Detection, as accurate and swift responses are crucial in this field, especially if automatic abortion mechanisms are running. The formulation of this hybrid IDS combines Artificial Neural Networks (ANN) and Case-Based Reasoning (CBR) within a Multi-Agent System (MAS) to detect intrusions in dynamic computer networks. Temporal restrictions are imposed on this IDS, in order to perform real/execution time processing and assure system response predictability. Therefore, a dynamic real-time multi-agent architecture for IDS is proposed in this study, allowing the addition of predictable agents (both reactive and deliberative). In particular, two of the deliberative agents deployed in this system incorporate temporal-bounded CBR. This upgraded CBR is based on an anytime approximation, which allows the adaptation of this Artificial Intelligence paradigm to real-time requirements. Experimental results using real data sets are presented which validate the performance of this novel hybrid IDS. © 2011 Elsevier B.V. All rights reserved. This research is funded through the Junta of Castilla and León (BU006A08); the Spanish Ministry of Science and Innovation (TIN2010-21272-C02-01), Education and Innovation (CIT-020000-2008-2 and CIT-020000-2009-12); the Spanish government (TIN2009-13839-C03-01), FEDER and CONSOLIDER-INGENIO (2010 CSD2007-00022) and the Generalitat Valenciana (PROMETEO/ 2008/051). The authors would also like to thank the vehicle interior manufacturer, Grupo Antolin Ingenieria S.A. for supporting the project through the MAGNO2008 – 1028.– CENIT Project funded by the Spanish Ministry of Science and Innovation. Herrero, Á.; Navarro Llácer, M.; Corchado, E.; Julian Inglada, VJ. (2013). RT-MOVICAB-IDS: Addressing Real-Time Intrusion Detection. Future Generation Computer Systems. 29:250-261. ...
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[EN] This study presents a novel Hybrid Intelligent Intrusion Detection System (IDS) known as RT-MOVICABIDS that incorporates temporal control. One of its main goals is to facilitate real-time Intrusion Detection, as accurate and swift responses are crucial in this field, especially if automatic abortion mechanisms are running. The formulation of this hybrid IDS combines Artificial Neural Networks (ANN) and Case-Based Reasoning (CBR) within a Multi-Agent System (MAS) to detect intrusions in dynamic computer networks. Temporal restrictions are imposed on this IDS, in order to perform real/execution time processing and assure system response predictability. Therefore, a dynamic real-time multi-agent architecture for IDS is proposed in this study, allowing the addition of predictable agents (both reactive and deliberative). In particular, two of the deliberative agents deployed in this system incorporate temporal-bounded CBR. This upgraded CBR is based on an anytime approximation, which allows the adaptation of this Artificial Intelligence paradigm to real-time requirements. Experimental results using real data sets are presented which validate the performance of this novel hybrid IDS. © 2011 Elsevier B.V. All rights reserved. ; This research is funded through the Junta of Castilla and León (BU006A08); the Spanish Ministry of Science and Innovation (TIN2010-21272-C02-01), Education and Innovation (CIT-020000-2008-2 and CIT-020000-2009-12); the Spanish government (TIN2009-13839-C03-01), FEDER and CONSOLIDER-INGENIO (2010 CSD2007-00022) and the Generalitat Valenciana (PROMETEO/ 2008/051). The authors would also like to thank the vehicle interior manufacturer, Grupo Antolin Ingenieria S.A. for supporting the project through the MAGNO2008 – 1028.– CENIT Project funded by the Spanish Ministry of Science and Innovation. ; Herrero, Á.; Navarro Llácer, M.; Corchado, E.; Julian Inglada, VJ. (2013). RT-MOVICAB-IDS: Addressing Real-Time Intrusion Detection. Future Generation Computer Systems. 29:250-261. ...
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In: Szegedi középkortörténeti könyvtár 26