Bogdan Ghita scite author profile

Traffic classification utilizing flow measurement enables operators to perform essential network management. Flow accounting methods such as NetFlow are, however, considered inadequate for classification requiring additional packet-level information, host behaviour analysis, and specialized hardware limiting their practical adoption. This paper aims to overcome these challenges by proposing two-phased machine learning classification mechanism with NetFlow as input. The individual flow classes are derived per application throughk-means and are further used to train a C5.0 decision tree classifier. As part of validation, the initial unsupervised phase used flow records of fifteen popular Internet applications that were collected and independently subjected tok-means clustering to determine unique flow classes generated per application. The derived flow classes were afterwards used to train and test a supervised C5.0 based decision tree. The resulting classifier reported an average accuracy of 92.37% on approximately 3.4 million test cases increasing to 96.67% with adaptive boosting. The classifier specificity factor which accounted for differentiating content specific from supplementary flows ranged between 98.37% and 99.57%. Furthermore, the computational performance and accuracy of the proposed methodology in comparison with similar machine learning techniques lead us to recommend its extension to other applications in achieving highly granular real-time traffic classification.

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Improvements to Inter System Handover in the EPC Environment

Frei

Fuhrmann²,

Rinkel

et al. 2011

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Bogdan Ghita

P2p-based community concept for M2M applications

Novel trust consensus protocol and blockchain-based trust evaluation system for M2M application services

Autonomous decentralised M2M application service provision

On Internet Traffic Classification: A Two-Phased Machine Learning Approach

Improvements to Inter System Handover in the EPC Environment

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