An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks

An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks

The need for effective approaches to handle big data that is characterized by its large volume, different types, and high velocity is vital and hence has recently attracted the attention of several research groups. This is especially the case when traditional data processing techniques and capabilit...

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Main Authors: Sahel Alouneh, Feras Al-Hawari, Ismail Hababeh, Gheorghita Ghinea
Format: Article
Language:English
Published: Hindawi-Wiley 2018-01-01
Series:Security and Communication Networks
Online Access:http://dx.doi.org/10.1155/2018/8028960
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spelling doaj-3da10e8f3fc54f3291d6d62508f724f72020-11-25T00:52:35ZengHindawi-WileySecurity and Communication Networks1939-01141939-01222018-01-01201810.1155/2018/80289608028960An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS NetworksSahel Alouneh0Feras Al-Hawari1Ismail Hababeh2Gheorghita Ghinea3German Jordanian University, JordanGerman Jordanian University, JordanGerman Jordanian University, JordanBrunel University, UKThe need for effective approaches to handle big data that is characterized by its large volume, different types, and high velocity is vital and hence has recently attracted the attention of several research groups. This is especially the case when traditional data processing techniques and capabilities proved to be insufficient in that regard. Another aspect that is equally important while processing big data is its security, as emphasized in this paper. Accordingly, we propose to process big data in two different tiers. The first tier classifies the data based on its structure and on whether security is required or not. In contrast, the second tier analyzes and processes the data based on volume, variety, and velocity factors. Simulation results demonstrated that using classification feedback from a MPLS/GMPLS core network proved to be key in reducing the data evaluation and processing time.http://dx.doi.org/10.1155/2018/8028960
collection DOAJ
language English
format Article
sources DOAJ
author Sahel Alouneh
Feras Al-Hawari
Ismail Hababeh
Gheorghita Ghinea
spellingShingle Sahel Alouneh
Feras Al-Hawari
Ismail Hababeh
Gheorghita Ghinea
An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks
Security and Communication Networks
author_facet Sahel Alouneh
Feras Al-Hawari
Ismail Hababeh
Gheorghita Ghinea
author_sort Sahel Alouneh
title An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks
title_short An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks
title_full An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks
title_fullStr An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks
title_full_unstemmed An Effective Classification Approach for Big Data Security Based on GMPLS/MPLS Networks
title_sort effective classification approach for big data security based on gmpls/mpls networks
publisher Hindawi-Wiley
series Security and Communication Networks
issn 1939-0114
1939-0122
publishDate 2018-01-01
description The need for effective approaches to handle big data that is characterized by its large volume, different types, and high velocity is vital and hence has recently attracted the attention of several research groups. This is especially the case when traditional data processing techniques and capabilities proved to be insufficient in that regard. Another aspect that is equally important while processing big data is its security, as emphasized in this paper. Accordingly, we propose to process big data in two different tiers. The first tier classifies the data based on its structure and on whether security is required or not. In contrast, the second tier analyzes and processes the data based on volume, variety, and velocity factors. Simulation results demonstrated that using classification feedback from a MPLS/GMPLS core network proved to be key in reducing the data evaluation and processing time.
url http://dx.doi.org/10.1155/2018/8028960
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