ANALISIS PERFORMANSI PADA SKEMA REDISTRIBUSI PROTOKOL ROUTING RIPv2 DAN OSPF

GHOMI, SURYANI (2019) ANALISIS PERFORMANSI PADA SKEMA REDISTRIBUSI PROTOKOL ROUTING RIPv2 DAN OSPF. Undergraduate Thesis thesis, Institut Telkom Purwokerto.

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Abstract

ABSTRACT In the development of data communication network technology, routing protocols have an important role in the process of exchanging information. Communication between devices in a network requires the use of the same routing protocol, this is because each routing protocol has different characteristics in exchanging routing information. The use of routing protocol on large scale networks cannot be regulated by using only one particular routing protocol, because not all routing protocols are suitable for use on large scale networks, this problem can be solved by using a redistribution mechanism. In this study, redistribution performance testing of two different routing protocols that are RIPv2 and OSPF, using Cisco router device. There are two services that tested, they are file sharing with variations in data size (30, 60, 90, 120, 150, and 180 MB) and video streaming with bit rate variations (2000, 4000, 6000, 8000, 10,000, and 12,000 Kbps). The parameters tested include delay, throughput, and jitter. The measurement results of the parameter delay for file sharing non-background traffic tend to be stable with an average of 0.144 ms, while the value of delay file sharing background traffic tends to be unstable with an average of 0.430 ms. The value of video streaming delay has decreased by an average of 1,974 ms for non-background video streaming and 1,974 ms for video streaming background traffic. The throughput average file sharing non-background is higher at 85,434 Mbps compared to the average of file sharing background traffic throughput of 36 Mbps. Average streaming video throughput increases when the bit rate is increased. The jitter of non-background traffic file sharing tends to fall by an average of 0.285 ms, compared to unstable of jitter file sharing with background traffic with an average of 0.756 ms. Jitter video streaming both non-background traffic and background traffic are both decreasing. Average jitter video streaming non-background traffic is 0.807 ms, and 0.791 ms for jitter video streaming background traffic. Based on the results of this study it was concluded that the use of the routing protocol redistribution technique in one LAN network was categorized well according to the TIPHON standard. Keywords: RIPv2, OSPF, Redistribusion, Delay, Throughput, Jitter

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