Analisis QOS layanan video call berbasis open ip multimedia subsystem (IMS) core pada jaringan ipv6

Levana, Rizki Daenira (2018) Analisis QOS layanan video call berbasis open ip multimedia subsystem (IMS) core pada jaringan ipv6. Diploma thesis, Institut Teknologi Telkom Purwokerto.

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Abstract

Video call service is remote communication services that send real-time sound and image information, so video call service requires a reliable access network. The reliability of a network can be measured by the performance of the resulting QoS parameters. One technology that can be used to improve QoS performance is the IP Multimedia Subsystem (IMS), a technology that provides IP based applications with QoS support. IP addresses commonly used are IPv4, but the 32- bit IPv4 addressing format and the growing number of IP based services make IPv4 less. Use of an IPv6 network with 128-bit addressing capabilities can be a solution to overcome IPv4 limitations. This study was conducted for the implementation of Open IMS Core video call services on the IPv6 backbone network. By stretching on IPv6 network, it can be seen that QoS performance of video call service in IPv6 network. From the simulation results of network testing in this study obtained the average value of delay, jitter, throughput and packet loss sequentially on the IPv4 network is 19.9990 ms, 13,5606 ms, 0.8840 Mbps, 0%. While the average value of delay, jitter, throughput and packet loss sequentially on the IPv6 network is 20.0213 ms, 13.6249, 1.0889 Mbps, 0.2017%. So it can be concluded that the QoS parameters generated on the IPv6 backbone network are larger compared to the IPv4 network that is because during the video call communication session on the IPv6 backbone network, the data passes through a tunneling network causes the number of data packets (bytes) of the UDP protocol to increase. However, the QoS parameters on IPv6 and IPv4 backbone networks are still in good category according to TIPHON ETSI TS 101 329-2 and TIPHON TR 101 329 standards. Keyword: Open IMS Core, Tunneling, QoS.

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