IJBTT

Analysis & Estimation of QoS Parameters on LAN Fundamental technologies based on OPNET

	International Journal of Computer Trends and Technology (IJCTT)
	© 2017 by IJCTT Journal
	Volume-48 Number-2
	Year of Publication : 2017
	Authors : Dr. Adnan Hussein Ali, HaeederMuntherNoman, Dr.Ali AbdulwahhabAbdulrazzaq
	DOI :  10.14445/22312803/IJCTT-V48P113

Dr. Adnan Hussein Ali, HaeederMuntherNoman, Dr.Ali AbdulwahhabAbdulrazzaq "Analysis &Estimation of QoS Parameters on LAN Fundamental technologies based on OPNET". International Journal of Computer Trends and Technology (IJCTT) V48(2):54-60, June 2017. ISSN:2231-2803. www.ijcttjournal.org. Published by Seventh Sense Research Group.

Abstract -
The performance assessment of a networkcan becentered on fixed parameters like throughput and delay and others. The technology performancesdeal withauser’s number or nodes in addition toconfirmed generation parameters. Thepurposes of this workis toestimate and explore the performances ofthroughput concentrated on traffic received,downloaded objects and pages as well as delay& loadbased on most basic technologies: Ethernet besides FDDI. By simulating two scenarios, first one contain 10 nodes with the other of 20 nodes. The effect of numerous network configurations on created scenarios were examined with a network simulator OPNET. The concluded diagrams ofthe Ethernet throughput be greater than at FDDIdue to their abilities for filtering errorsand to avoid collisions,while FDDI load anddelay which experienced atthese networkscan be consideredless than Ethernetifan equalnodes number could be utilized.At last, the effect of the downloaded objects and pages for Ethernet network with10 & 20 nodes are explained and proves as greater than that for 10 &20 nodes for FDDI networks.

References
[1] Ishu, G and K. Perminder. 2010. “Comparative throughput of Wi-Fi & Ethernet LANs using OPNET MODELER”. International Journal of Computer Applications. 8(6):1-4. Available: http://www.maznets.com/tech/ethernet.htm.
[2] Chao, C. et al. 2001. “Backbone: FDDI, ATM or Gigabit Ethernet?” Available: http://www2.ensc.sfu.ca/~ljilja/ENSC833/Spring01/Projects/chen_liu_wang/backbone.pdf.
[3] Singh, A. 2011. “Throughput Analysis of Ethernet and FDDI using OPNET IT Guru Academic Edition 9.1”. Research Cell: An International Journal of Engineering Sciences. 4(11):1-5. Available: http://ijoes.org/paper/SI2/46.pdf.
[4] Timothy, J. 2013. “The Fiber Distributed Data Interface (FDDI) - A new generation standard for Local Area Networks”. Available: http://www.citeseerx.edu/.
[5] IkramUd Din, SaeedMahooz and Muhammad Adnan, “Performance evaluation of different EthernetLANs connected by Switches and Hubs,” European Journal of Scientific Research, vol. 37, No 3, pp. 461-470, 2009.
[6] Singh, H. 2013. “Modelling, Evaluation and Analysis of Ring Topology for Computer Applications Using Simulation”. International Journal of Computer Science and Mobile Computing. 2(1):1-3. Available: http://www.ijcsmc.com/docs/papers/january2013/V2I1201302.pdf.
[7] Pushparani, D. et al. 2005. “A New Analysis of System Utilization Performance for Ethernet Networking System. IEEE 802.11e EDGA”. IEEE Transactions on Comm.
[8] Saad, M. 2006. “Performance Evaluation of Rapid Spanning Tree Protocol by Measurements and Simulation”. Department of Telecommunications and Media Informatics, Budapest University of Technology and Economics.
[9] R.Kaparti, “OPNET IT Guru: A tool for networking education,” REGIS University.
[10] Bhargava, N. et al. 2012. “Study of TCP Throughput on Network Simulator OPNET++ by using different Parameters”. Journal of Environmental Research and Development. 7(2): 762-767.

Keywords
Ethernet, FDDII, QoS parameters (throughputs, delay, loads), OPNET.