Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++
Computer networks have become extremely important in our present-day society. A majority of companies depend on the proper functioning of their networks for communications, administration, automation, e-business solutions and other corporate functions. Outage of the network can cost a company millio...
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2012
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| Online Access: | https://etd.uum.edu.my/3368/1/MOHD_AISHAMUDDIN_YAAKOB.pdf https://etd.uum.edu.my/3368/4/MOHD_AISHAMUDDIN_YAAKOB.pdf |
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Universiti Utara Malaysia |
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Ali, Norazila |
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QA76 Computer software |
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QA76 Computer software Mohd Aishamuddin, Yaakob Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ |
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Computer networks have become extremely important in our present-day society. A majority of companies depend on the proper functioning of their networks for communications, administration, automation, e-business solutions and other corporate functions. Outage of the network can cost a company millions of money. To avoid these problems, system managers need professional tools to help them with the design and maintenance of computer networks. A simulation tool offers a way to predict the impact on the network of a hardware upgrade, a change in topology, an increase in traffic load or the use of a new application.OMNeT++ offers a number of tools specifically designed for these purposes. The objective of this project is to design and simulate existing network in Kolej Komuniti Arau Perlis (KKAP) building using OMNeT++ simulation environment. KKAP may deploy internal mesh network that provide better
communication inside the campus. inter-department and levels of the actual KKAP's buildings. From the simulation, data are collected as if a real system were being observed. The results are expected to show that OMNeT++ provides credible simulation results close to a real system. Thus, in future these models are expected to assist KKAP to explore new design options without disrupting the existing systems. |
| format |
Thesis |
| qualification_name |
masters |
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Master's degree |
| author |
Mohd Aishamuddin, Yaakob |
| author_facet |
Mohd Aishamuddin, Yaakob |
| author_sort |
Mohd Aishamuddin, Yaakob |
| title |
Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ |
| title_short |
Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ |
| title_full |
Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ |
| title_fullStr |
Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ |
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Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ |
| title_sort |
kolej komuniti arau perlis (kkap) network modeling using omnet++ |
| granting_institution |
Universiti Utara Malaysia |
| granting_department |
College of Arts and Sciences (CAS) |
| publishDate |
2012 |
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https://etd.uum.edu.my/3368/1/MOHD_AISHAMUDDIN_YAAKOB.pdf https://etd.uum.edu.my/3368/4/MOHD_AISHAMUDDIN_YAAKOB.pdf |
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my-uum-etd.33682016-04-27T04:04:26Z Kolej Komuniti Arau Perlis (KKAP) Network Modeling Using OMNeT++ 2012 Mohd Aishamuddin, Yaakob Ali, Norazila College of Arts and Sciences (CAS) College of Arts and Sciences QA76 Computer software Computer networks have become extremely important in our present-day society. A majority of companies depend on the proper functioning of their networks for communications, administration, automation, e-business solutions and other corporate functions. Outage of the network can cost a company millions of money. To avoid these problems, system managers need professional tools to help them with the design and maintenance of computer networks. A simulation tool offers a way to predict the impact on the network of a hardware upgrade, a change in topology, an increase in traffic load or the use of a new application.OMNeT++ offers a number of tools specifically designed for these purposes. The objective of this project is to design and simulate existing network in Kolej Komuniti Arau Perlis (KKAP) building using OMNeT++ simulation environment. KKAP may deploy internal mesh network that provide better communication inside the campus. inter-department and levels of the actual KKAP's buildings. From the simulation, data are collected as if a real system were being observed. The results are expected to show that OMNeT++ provides credible simulation results close to a real system. Thus, in future these models are expected to assist KKAP to explore new design options without disrupting the existing systems. 2012 Thesis https://etd.uum.edu.my/3368/ https://etd.uum.edu.my/3368/1/MOHD_AISHAMUDDIN_YAAKOB.pdf text eng validuser https://etd.uum.edu.my/3368/4/MOHD_AISHAMUDDIN_YAAKOB.pdf text eng public masters masters Universiti Utara Malaysia Abeysundara,B.W., and Kamal,A.E.: "HIGH-Speed Local Area Networks and Their Performance" Computing Surveys. vo1. 23, pp.22 1-264, June 1991. Akyildiz, X.Wang. and W.Wang, "Wireless mesh networks: a survey," Computer Networks, vol.47, pp.445487, 2005. Bajaj,S., L.Breslau, D.Estrin, K.Fall, S.Floyd, P.Haldar, M.Handley, A.Helmy, J.Heidemann, P.Huang, S.Kumar, S.McCanne , R.Rejaie, P.Sharma. K.Varadhan, Y.Xu, H.Yu and D.Zappala. 2000. Improving simulation for network research. IEEE Computer. (to appear, a preliminary draft is currently available as USC technical report 99-702) Banks,J., 1998. Handbook of Simulation: principles, Methodology, Advances, Application, and Practice. USA: John Wiley and Sons, Inc. Hassan,M.. & Jain,R. (2004). High performance TCP/IP Networking: New Jersey, Prentice Hall Kiran, Ali S.. Cetinkaya T., Og S. (2000). Simulation modelling and analysis of a new international terminal .Proceedings of the 2000 Winter Simulation Conference. J.A. Joines, R.R.Barton, K.Kang, and P.A.Fishwick, eds Kristensen,L.M, Mitchell,B., Zhang,L., & Billington,J. (2002). 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Simulation model composition using BOMs. Proceedings of the Tenth IEEE International Symposium on Distributed Simulation and Real-Time Application (DS-RT'06) Oppenheimer BR, Kulkarni SR. Stauffer JR. 2000. Brown Dwarfs. In Protostars and Planets IV Tucson: University of Arizona Press. pp. 1313-1338 Orfanus,D., Janacik,P., Lessmann,J., & Lachev,L. (2008). Performance of wireless network simulators. Proceedings at PM2HW2N08, October 31, 2008. Vancover, BC. Canada. Padhye,J., V.Firoiu, D.Towsley. and J.Kurose: 2000, 'Modeling TCP Throughput: A Simple Model and its Empirical Validation'. IEEE/ACM Transactions on Networking 8, 133-145. Penttinen A., Chapter 9 - Simulation, Lecture Notes: S-38. 145-Introduction to Teletraffic Theory, Helsinki University of Technology, Fall 1999. Rahman. A.Ab., & Ghazali,0. (2008) TCP-Friendliness of modified explicit rate adjustment. In proceeding at International Conference on network applications, protocols and services (Netapps). University of Utara Malaysia. Rahul Malhotra, Vikas Gupta and Dr. R K Bansal. Article: Simulation& Performance Analysis of Wired and Wireless Computer Networks. International. Journal of Computer Applications 14(7): 11-17, February 2011. S Imre, Keszei, Horv'ath, Holl'os, Barta. and Kujbus. Simulation environment for ad-hoc networks in OMNeT++. In IST Mobile Summit 2001, pages 135-140, 2001. Sztrik,J., Kim.C.S., Performance Modeling Tools with Applications, Annales Mathematicae et Informaticae, (2006) 33, 125-140. Thakkar,D., Hassan A.E., Hamann,G., & Flora,P. (2008) A framework for measurement based performance modelling. Proceeding at WOSP'08, June 24-26, 2008, Princeton, New Jersey, USA. Theelen,B.D. (2004).Performance Modelling For System-Level Design. PHD Thesis. Technische Universiteit Eindhoven Netherlands Varga.A. (1999).Using the OMNeT++ discrete event simulation system in education. IEEE Transactions on Education, VOL.42 , NO.4, NOVEMBER 1999 Varga.A. (2001). The OMNeT++ discrete event simulation system. In Proceedings of the European Simulation Multiconference (ESM'2001). June 6-9, 2001. Prague, Czech Republic. 2001. Virtual Local Area Network: IEEE Standard Association (2005) . Electronic references. Retrieved from http://standards. ieee.org/getieee802/download/802.1Q-2005.pdf W.Drytkiewicz, S.Sroka, V.Handziski, A.Koepke, and H.Karl. A mobility framework for OMNeT++. In 3rd International OMNeT++ Workshop, at Budapest University of Technology and Economics, Department of Telecommunications Budapest, Hungary, January 2003. Y.Gao, V.Freeh. and G.Madey. (2011). Modelling and Simulation of Open Source Software Community |