Security Patrol Control and Data Transfer Performance Analysis of Campus Network Using Wireless Mobile Nodes

Yıl 2016, Cilt: 16 Sayı: 3, 592 - 598, 31.12.2016

Zeydin Pala

Öz

Each method suggested for each solution to simplify our lives brings a perspective towards problems. Wireless solutions are now included in every aspect of our lives. In this study, duties and responsibilities of both campus security and security guards were brought to the forefront and a wireless mobile patrol system was suggested. The aim was to put forth more effective and more controllable model of the efforts. The main theme of the designed network system created in two cases: The first one is a mobile node circulating in orbit that defines the campus environment. The second one is sending the collected information to the target station. While the mobile node was visiting around campus, it took the advantage of all access points and sent collected data to target stations with its roaming feature. Five different scenarios were designed and different transmission standards were used to evaluate delays with data transmission performance. In the network system design, Riverbed Modeler Academic Edition 17.5 PL6 (OPNET) was used. To conclude, both IEEE 802.11g and IEEE 802.11n standard data were successfully transmitted to the central station. As the mobile node went farther away from access points during data transmission, data transfer rates decreased. In the security patrol model suggested here, the obtained analysis results showed that wireless transmission devices arranged in lower speed were more successful.

Anahtar Kelimeler

Wireless LAN, Mobile Security Station, Campus Security, Wireless LAN Roaming

Kaynakça

• Abdullah, I.S.A, Mustafa, A.B., 2016. The Impact of Distance on WLAN and LAN Network Performance, International Journal of Science and Research, 5(3), 1063-1065.
• lisa, Z.T., 2013. Evaluating the Performance of Wireless Network using OPNET Modeler, International Journal of Computer Applications, 62(13), 22-28.
• Alsaif, KI., Saleh, IA., Alsaif, OI., 2014. Design and Analysis WLAN Nodes Performance Based on Roaming Technique, Journal of College of Education for Pure Science, 4, 228-235.
• Babu, AS., Rao, KVS.,2011. Evaluation of BER for AWGN, Rayleigh and Rician Fading Channels under Various Modulation Schemes, International Journal of Computer Applications, 26(9), 23-28.
• Gupta, I., Kaur, A., 2010. Comparative Throughput of WiFi & Ethernet LANs using OPNET Modeller, IJCST, 1(2), 105-107.
• Jasper, A., 2015. Comparison of Local Area Network Technologies: Ethernet (IEEE 802.3), ATM and WLAN/WiFi (IEEE 802.11g), International Journal of Current Engineering and Technology, 5(1), 503-506.
• Jaswal, K., Jiyoti, Vats, K., 2014. Opnet Based Simulation and Investigation of Wimax Network Using Different QoS, IJRET: International Journal of Research in Engineering and Technology,3, 575-579.
• Khan, T, A., Beg, MT., Khan, MA., 2013. Performance Analysis of WLAN Using OPNET, International Journal of Innovative Technology and Exploring Engineering, 2(5), 1-4.
• Kumar, AS., Velmurugan, S., 2013. Integrating of WLAN / UMTS Network in Hot-Spot Locations Using OPNET, 2, 1330-1336.
• Leemis, L., Park, S., 2006. Discrete Event Simulation: A First Course, Pearson Prentice-Hall. Lu, Z., Yang H., 2012. Unlocking the Power of OPNET Modeler, Cambridge University Press 2012. Nehra, E., Singh, J., 2013. Practical Methodology for Expansion of Company’s Intranet Using Opnet Modeler, International Journal of Electronics & Communication Technology, 4(3), 18-21
• . Pal, N., Dhir, R., 2013. Analyze the Impact of Mobility on Performance of Routing Protocols in MANET Using OPNET Modeller, International Journal of Advanced Research in Computer Science and Software Engineering, 3(6),768-772.
• Park, K., Willinger, W., 2000. Self-Similar Network Traffic and Performance Evaluation,Wiley-Interscience. John Wiley & Sons, Inc. New York, NY, USA.
• Shklyaeva A., Novotny V., Abilov A. 2006. Roaming and Quality of Service in WLAN network. Proceedings of Research in Telecommunication Technology,Nove Mesto na Morave, Chech Republic, 2006, pp. 332-336.
• Sukhroop, P., Singla, K., Singla, A., 2012. Simulate the Performance Parameters of Wired and Wireless Networks by Soft Computing Technique, International Journal of Engineering Research and Applications, 2(1), 25-35.
• Tolani, M., Mishra, R., 2012. Effect of Increasing Load on WLAN Analyzed Through OPNET Simulator, International Journal of Computer Applications, 50, 25-29.
• Yi, S., Xu, P., Liu, H., 2013. Performance Analysis of Wireless Sensor Network Based on OPNET, Communications and Network, 5, 512-516.
• Zubairi, J.A., Zuber, M., 2000. SUNY Fredonia Campus Network Simulation and Performance Analysis Using OPNET, 1-3.