Currently, the increasing network connectivity is becoming more and more complex and the
integration of several services continues to appear. These approaches need a
guarantee in terms of throughput, the performance of which they potentially
impact. So, the basic aim of this research is to get the best MPLS network
performance towards linux and FreeBSD operating systems. This is why in this
report, we have worked on MPLS network performance, which will help to identify
performance metrics. To evaluate the performance, we used those operating
systems implementing the MPLS architecture in order to define the best
performing between the two on this domain. For this, we used scapy to measure
the response times by varying the size of the packets sent and validate the
measurements with the MATLAB Simulink. After all experiments, we realized that
FreeBSD operating system is more reliable than linux in MPLS network base.
References
[1]
Rahman, A., Kabir, A.H., Lutfullah, K.A.M., Hassan, M.Z. and Amin, M.R. (2008) Performance Analysis and the Study of the Behavior of MPLS Protocols. International Conference on Computer and Communication Engineering, Kuala Lumpur, 13-15 May 2008. https://doi.org/10.1109/ICCCE.2008.4580601
[2]
Naoum, R.S. and Maswady, M. (2012) Performance Evaluation for VOIP over IP and MPLS. World of Computer Science and Information Technology Journal, 2, 110-114.
[3]
Narula, D., Rojasmartinez, M. and Rayipati, V. (2010) Evaluating Performance on an ISP MPLS Network. Masters in Interdisciplinary Telecommunications, The University of Colorado, Boulder.
[4]
IJERT (2012) Implémentation MPLS sous FreeBSD. IJERT, Vol. 1.
[5]
Rachdi, M.A. (2007) Optimisation des ressources de réseaux hétérogènes avec cœur de réseau MPLS. Ecole doctorale: Edsys.
[6]
Tan, G.C. (2006) A Performance Analysis of BGP/MPLS VPN Failover Functionality.
[7]
Kingsley, O.O. (2008) Optimizing Application Traffic on MPLS-Enabled Network Links. Master of Science in Electrical Engineering, Blekinge Institute of Technology, Karlskrona.
[8]
Gonzales, F., Chang, C.-H., Chen, L.-W. and Lin, C.-K. (2000) Using Multiprotocol Label Switching (MPLS) to Improve IP Network Traffic Engineering.
[9]
Sourabh Jain IES, IPSA, Indore, RGPV Bhopal, Bhopal (2012) Performance Analysis of Voice over Multiprotocol Label Switching Communication Networks with Traffic Engineering. International Journal of Advanced Research in Computer Science and Software Engineering, 7.
[10]
Rahman, R.A., Kassim, M. and Ariffin, N. (2011) Performance Analysis on Wan Optimizations: Bandwidth Management in Multi-Protocol Level Switching (MPLS) Virtual Private Network (VPN). Faculty of Electrical Engineering, Universiti Teknologi MARA, Selangor.
[11]
Kuribayashi, S. (2011) Proposed Optimal LSP Selection Method in MPLS Networks. Department of Computer and Information Science, Seikei University, Tokyo.
[12]
Kocak, C., Erturk, I. and Ekiz, H. (2003) Comparative Performance Analysis of Mpls over ATM and IP over ATM Methods for Multimedia Transfer Applications. Sakarya University, Technical Education Faculty, Esentepe.
[13]
Abboud, K. (2011) Conception et évaluation d’un modèle adaptatif pour la qualité de service dans les réseaux MPLS. Ecole Centrale De Lille.
[14]
Charbonnier, L. (2007) Evaluation de la Securite des Reseaux Prives Virtuels sur MPLS. Ecole De Technologie Supérieure Université Du Québec, Decembre.
[15]
Olivier Ferveur (2009) Optimisation des architectures IP/MPLS de transport mutualisé. école Doctorale IAEM Lorraine, November.
[16]
Al-Quzwini, M.M. and Ibrahim, S.K. (2012) Performance Evaluation of Traffic Engineering Signal Protocols in IPV6 MPLS Networks. Communications and Network, 4, 298-305. https://doi.org/10.4236/cn.2012.44035
[17]
Zeng, X.M., Lung, C.-H. and Huang, C.C. (2004) A Bandwidth-Efficient Scheduler for MPLS DiffServ Networks. Department of System and Computer Engineering, Carleton University, Ottawa.
[18]
Li, Y.H. and Panwar, S. (2004) Performance Analysis of MPLS TE Queues for QoS Routing. Electrical and Computer Engineering Department, Polytechnic University, Brooklyn.
[19]
Tan, C.C. (2002) Performance Analysis of Voice Traffic in MPLS Communication Networks. San Jose State University, San Jose.
[20]
Zhang, D.L. and Ionescu, D. (2007) QoS Performance Analysis in Deployment of DiffServ-Aware MPLS Traffic Engineering. 8th ACIS International Conference on Software Engineering, Artificial Intelligence, Networking, and Parallel/Distributed Computing (SNPD 2007), Qingdao, 30 July-1 August 2007. https://doi.org/10.1109/SNPD.2007.541
[21]
Saidi, M.Y. (2008) Méthodes de contrôle distribué du placement de LSP de secours pour la protection des communications unicast et multicast dans un réseau MPLS. Université de Rennes 1, novembre.
