Open Access
Subscription Access
Open Access
Subscription Access
Experimental Based Performance Analysis of IEEE 802.11/g Hybrid Network
Subscribe/Renew Journal
The performance of IEEE 802.11/g hybrid network consisting of wired nodes, a mobile access point and mobile wireless nodes where the mobile access point is moving from one point to another to make the mobile wireless nodes or mobile hosts communicate is analysed. Taking into consideration the strong drive towards the wireless internet access through the mobile terminals, the impact on the performance of the network due to the mobile access point is analysed and examined. The result of the simulation based upon the experiment demonstrates the performance factors like throughput, packet delivery ratio and average delay over the conventional hybrid network. The whole simulation is done and analysed by using network simulator NS-2.35. It concludes on the performed throughput, packet delivery ratio and average delay.
Keywords
IEEE 802.11/g, Hybrid Network, Access Point, Mobile Hosts Network Simulator, NS2.35, Throughput, Packet-Delivery-Ratio, Average Delay
Subscription
Login to verify subscription
User
Font Size
Information
- Roy, R., Das, S., Ghosh, A. & Mukherjee, A. (2007). Modified TCP Congestion Control Algorithm for Throughput Enhancement in Wired-cum-Wireless Networks. In Proceedings of the 18th Annual IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC).
- Dovrolis, C. & Jain, M. (2003). End to End Available Bandwidth: Measurement Methodology, Dynamics and Relation with TCP Throughput. In IEEE/ACM Transactions in Networking, (pp. 537-549).
- Jacobson, V. (1998). Congestion Avoidance Control. In Proceeding of ACM SIGCOMM, (pp. 314-329).
- Vassis, D., Kormentzas, G., Rouskas, A. & Maglogiannis, I. (2005). The IEEE 802.11/g Standards for High Data Rate WLANs. Network IEEE, May-June, 19(3), 21-26.
- UCB/LBNL/VINT. (2004). The ns-2 network simulator. Retrieved from http://www.isi.edu/nsnam/ns/
- Wang, X. A., Kar, K. & Low, S. H. (2009). End-to-end fair rate optimization in wired-cum-wireless networks. Elsevier, May, 7(3), 473-485.
- Loi, L. C. & Hwang, W. J. (2006). A new approach to solve rate control problem in wired-cum wireless network. Journal of Korea Multimedia Society, December, 9(12), 1636-1648.
- Li, M., Zhu, H., Chlamtac, I. & Prabhakaran, B. (2006). End-to-end QoS framework for heterogeneous wired-cum-wireless networks. Journal of Wireless Network Springer, July, 12(4), 439-450.
- Banchs, A. & P´erez, X. (2002). Providing Throughput Guarantees in IEEE (802.11 Wireless LAN. In Proceedings of IEEE WCNC, (Vol. 1, pp. 130-138).
- Benveniste, M., Chesson, G., Hoeben, M., Singla, A., Teunissen, H. & Wentink, M. (2001). EDCF Proposed Draft Text. IEEE Working Document 802.11–01/13lrl.
- Bianchi, G., Borgonovo, F., Capone, A., Fratta, L. & Petrioli, C. (2001). PCP-DV: An End-to-end Admission Control Mechanism for IP Telephony. IWDC, (pp.470-480).
Abstract Views: 682
PDF Views: 4