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Towards QoS and security in software-driven heterogeneous autonomous networks

Version 2 2024-06-03, 22:42
Version 1 2019-12-02, 14:41
conference contribution
posted on 2024-06-03, 22:42 authored by Keshav SoodKeshav Sood, K Karmakar, V Vardharajan, U Tupakula, S Yu
© 2018 IEEE. Autonomous Networks has a potential to solve complex and critical management issues in large scale multi-technological networks. Further, the novel paradigms, i.e., Software-Defined Networks (SDN) and Network Function Vir-tualization (NFV) offer unique and attractive solutions for Autonomous Networks or Systems (AS). However, despite of these attractive features, we observed two critical issues in this interlinked multi-technology domain. Firstly, the network externality and nodes heterogeneity seriously effected the flow specific Quality of Service (QoS). Secondly, it influenced se-curity adoption in an network of interconnected nodes. We observed that QoS and security both are non-negligible and inter-dependent factors. This motivates us to investigate solution towards a) alleviating the SDN network heterogeneity at control layer, and b) to strengthen the network security after alleviating the heterogeneity. In this research effort, we have attempted to alleviate the first issue. Firstly, significant and reasonable examples have been cited to motivate researchers to study QoS and security hand-to-hand. Secondly, a theoretical high level frame work has been proposed with the aim to transform the N heterogeneous controllers to n homogeneous controller groups. Following this, we have demonstrated that our approximation method to transform heterogeneous systems to homogeneous groups works well even at high degree of heterogeneity in the network. We have shown our theoretical analysis results using Matlab. Following this, we have shown the Proof of Concept (PoC) of our approach in SDN-NFV ecosystem using Mininet. This early analysis will help researchers to address heterogeneity and security in more effective ways.

History

Volume

00

Location

Abu Dhabi, United Arab Emirates

Start date

2018-12-09

End date

2018-12-13

ISSN

2334-0983

eISSN

2576-6813

ISBN-13

9781538647271

Language

eng

Publication classification

E1.1 Full written paper - refereed

Title of proceedings

GLOBECOM : 2018 IEEE Global Communications Conference

Event

Global Communications. Conference (2018 : Abu Dhabi, United Arab Emirates)

Publisher

IEEE

Place of publication

Piscataway, N.J.

Series

IEEE Global Communications Conference

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