Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems

Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems

Integrating intelligence into intrusion detection tools has received much attention in the last years. The goal is to improve the detection capability within SIEM and IDS systems in order to cope with the increasing number of attacks using sophisticated and complex methods to infiltrate systems. Cur...

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Main Authors: Nabil Moukafih, Ghizlane Orhanou, Said El Hajji
Format: Article
Language:English
Published: Hindawi-Wiley 2020-01-01
Series:Security and Communication Networks
Online Access:http://dx.doi.org/10.1155/2020/3512737
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spelling doaj-f63c2dd24e334aca9e8fa079ce2da8b02020-11-25T02:56:44ZengHindawi-WileySecurity and Communication Networks1939-01141939-01222020-01-01202010.1155/2020/35127373512737Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS SystemsNabil Moukafih0Ghizlane Orhanou1Said El Hajji2Laboratory of Mathematics, Computing and Applications-Information Security, Faculty of Sciences, Mohammed V University in Rabat, BP1014 RP, Rabat, MoroccoLaboratory of Mathematics, Computing and Applications-Information Security, Faculty of Sciences, Mohammed V University in Rabat, BP1014 RP, Rabat, MoroccoLaboratory of Mathematics, Computing and Applications-Information Security, Faculty of Sciences, Mohammed V University in Rabat, BP1014 RP, Rabat, MoroccoIntegrating intelligence into intrusion detection tools has received much attention in the last years. The goal is to improve the detection capability within SIEM and IDS systems in order to cope with the increasing number of attacks using sophisticated and complex methods to infiltrate systems. Current SIEM and IDS systems have many processes involved, which work together to collect, analyze, detect, and send notification of failures in real time. Event normalization, for example, requires significant processing power to handle network events. So, adding heavy deep learning models will invoke additional resources for the SIEM or IDS tool. This paper presents a majority system based on reliability approach that combines simple feedforward neural networks, as weak learners, and produces high detection capability with low computation resources. The experimental results show that the model is very suitable for modeling a classification model with high accuracy and that its performance is superior to that of complex resource-intensive deep learning models.http://dx.doi.org/10.1155/2020/3512737
collection DOAJ
language English
format Article
sources DOAJ
author Nabil Moukafih
Ghizlane Orhanou
Said El Hajji
spellingShingle Nabil Moukafih
Ghizlane Orhanou
Said El Hajji
Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems
Security and Communication Networks
author_facet Nabil Moukafih
Ghizlane Orhanou
Said El Hajji
author_sort Nabil Moukafih
title Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems
title_short Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems
title_full Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems
title_fullStr Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems
title_full_unstemmed Neural Network-Based Voting System with High Capacity and Low Computation for Intrusion Detection in SIEM/IDS Systems
title_sort neural network-based voting system with high capacity and low computation for intrusion detection in siem/ids systems
publisher Hindawi-Wiley
series Security and Communication Networks
issn 1939-0114
1939-0122
publishDate 2020-01-01
description Integrating intelligence into intrusion detection tools has received much attention in the last years. The goal is to improve the detection capability within SIEM and IDS systems in order to cope with the increasing number of attacks using sophisticated and complex methods to infiltrate systems. Current SIEM and IDS systems have many processes involved, which work together to collect, analyze, detect, and send notification of failures in real time. Event normalization, for example, requires significant processing power to handle network events. So, adding heavy deep learning models will invoke additional resources for the SIEM or IDS tool. This paper presents a majority system based on reliability approach that combines simple feedforward neural networks, as weak learners, and produces high detection capability with low computation resources. The experimental results show that the model is very suitable for modeling a classification model with high accuracy and that its performance is superior to that of complex resource-intensive deep learning models.
url http://dx.doi.org/10.1155/2020/3512737
work_keys_str_mv AT nabilmoukafih neuralnetworkbasedvotingsystemwithhighcapacityandlowcomputationforintrusiondetectioninsiemidssystems
AT ghizlaneorhanou neuralnetworkbasedvotingsystemwithhighcapacityandlowcomputationforintrusiondetectioninsiemidssystems
AT saidelhajji neuralnetworkbasedvotingsystemwithhighcapacityandlowcomputationforintrusiondetectioninsiemidssystems
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