Can BozdoganYasemin GokcenIbrahim ZincirBozdodan, CanZincir, IbrahimGokcen, YaseminS. Silva2025-10-062015978145033488410.1145/2739482.27684322-s2.0-84959422365https://www.scopus.com/inward/record.uri?eid=2-s2.0-84959422365&doi=10.1145%2F2739482.2768432&partnerID=40&md5=8a6f70ddd2a8b0ada8185e3eeea07373https://gcris.yasar.edu.tr/handle/123456789/9896https://doi.org/10.1145/2739482.2768432Identification of P2P (peer to peer) applications inside network traffic plays an important role for route provisioning traffic policing flow prioritization network service pricing network capacity planning and network resource management. Inspecting and identifying the P2P applications is one of the most important tasks to have a network that runs efficiently. In this paper we focus on identification of different P2P applications. To this end we explore four commonly used supervised machine learning algorithms as C4.5 Ripper SVM(Support Vector Machines) Naïve Bayesian and well known unsupervised machine learning algorithm K-Means on four different datasets. We evaluate their performances to identify the P2P applications that each traffic flow belongs to. Evaluations show that Ripper algorithm gives better results than the others. © 2017 Elsevier B.V. All rights reserved.Englishinfo:eu-repo/semantics/closedAccessNetwork Traffic Classification, P2p Applications, Peer To Peer, Supervised And Unsupervised Machine Learning, Artificial Intelligence, Distributed Computer Systems, Evolutionary Algorithms, Learning Algorithms, Learning Systems, Supervised Learning, Support Vector Machines, Telecommunication Traffic, Network Capacity Planning, Network Resource Management, Network Traffic Classification, P2p (peer To Peer), P2p Applications, Peer To Peer, Supervised Machine Learning, Unsupervised Machine Learning, Peer To Peer NetworksArtificial intelligence, Distributed computer systems, Evolutionary algorithms, Learning algorithms, Learning systems, Supervised learning, Support vector machines, Telecommunication traffic, Network capacity planning, Network resource management, Network traffic classification, P2P (peer to peer), P2P applications, Peer to peer, Supervised machine learning, Unsupervised machine learning, Peer to peer networksNetwork Traffic ClassificationP2P ApplicationsPeer to PeerSupervised and Unsupervised Machine LearningConference Object