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"Teknologi informasi, komunikasi dan jaringan internet telah melaju sedemikian pesatnya, hal ini membawa dampak terhadap penggunaan IP yang semakin besar. Untuk mengantisipasi kebutuhan alamat IP yang semakin besar, IETF telah menetapkan standar pengalamatan baru yang disebut IPv6. Agar IPv6 dapat lebih cepat berkembang dan dirasakan manfaatnya, jaringan-jaringan IPv6 ini harus dapat dihubungkan ke jaringan yang lain. Jaringan penghubung (backbone) yang ada saat ini hampir seluruhnya merupakan jaringan IPv4. Oleh karena itulah dirumuskan metode transisi yang dapat menghubungkan beberapa jaringan IPv6 melalui jaringan IPv4 atau berhubungan dengan jaringan IPv4. Dalam skripsi ini dilakukan pengujian kinerja metode DSTM, khususnya di dalam aplikasi video streaming. Sarana yang digunakan berupa jaringan test bed yang dibangun dari empat buah PC di laboratorium digital FTUI. Parameter yang diamati di sini ialah latency, packet loss, dan throughput. Di dalam uji coba ini akan dibandingkan kinerja dari konfigurasi IPv4 murni, IPv6 murni, dan metode DSTM, khususnya di dalam aplikasi video streaming. Hasil dari uji coba menunjukkan bahwa metode DSTM tidak mengurangi kemampuan jaringan dalam aplikasi video streaming. Dibandingkan dengan IPv4, metode DSTM memiliki latency yang lebih baik sebesar _ 0,259 %. Namun, di lain pihak metode DSTM memiliki packet loss lebih buruk _ 20,441% dan throughput yang lebih buruk _ 1,363 %.

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Information technology, communication and internet network have been grown faster, its made a big impact to the using of IP address. To anticipate the increasing of IP address requirement, IETF has recommended the new addressing standard which is called IPv6. In order to improve development of IPv6, IPv6 networks have to able connected to the other networks. At present, nearly all the backbone of networks use the IPv4 network. In that case the transistion method formulated to get the several IPv6 networks connection through IPv4 network or able connected to the Ipv4 network.

In this final assigment, will be tested the performace of video streaming on network with DSTM method. The experiment tool is a test bed which consist of four PC's at FTUI Digital laboratory. The parameters should be observed are latency, packet loss, and throughput. On this trial test will be taken the comparison between the performance of video streaming application in pure IPv4 configuration, pure Ipv6 configuration and DSTM method.

The results of data evaluation show there was no decreasing of network capability on the video streaming application used the DSTM method. DSTM method has a better latency with amount of _ 0.259 % than IPv4 network. However on the other side DSTM method has a worse packet loss with amount of _ 20.44 % and a worse throughput with amount of _ 1.363 % than IPv4 network."

"[ABSTRAKVANET adalah sebuah jaringan tanpa infrastruktur yang terdiri dari entitas atau node bergerak yang memiliki perangkat wireless untuk berkomunikasi satu sama lain. VANET memiliki topologi yang dinamis yang disebabkan oleh mobilitas dari node-node pada VANET. Dalam simulasi pada vanet dibutuhkan model mobilitas yang mencerminkan keadaan sebenarnya. Model mobilitas menentukan pergerakan dari entitas/node, bagaimana node bergerak, kecepatan dan percepatan dalam VANET. Untuk mencegah kemacetan di jalan raya dilakukan load balancing/pengalihan arus kendaraan untuk membagi trafik kendaraan, dengan satu jalur jalan raya, kepadatan kendaraan akan sangat tinggi, pada topologi grid map dengan load balancing, kepadatan kendaraan dapat berkurang. Pada simulasi didapatkan penurunan kinerja pada model mobilitas grid map dengan load balancing. Pada load balancing, perubahan topologi yang menjadi lebih besar mengakibatkan penurunan kinerja dari load balacing pada model mobilitas gridmap dengan 19,3% pada delay, 5,08% pada packet delivery ratio dan 5,46% pada throughput dalam paramater AODV dan 0,01% pada delay, 12,70% packet delivery ratio dan 12,73% pada throughput dalam parameter DSDV.

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ABSTRACTVANET is an infrastucture less network that consist of entities or mobile nodes that contain wireless device for communicating each other. VANET has dynamic topology due to node mobility. VANET simulation is need mobility model that reflecting the real situation. Mobility model determines the movement of mobile nodes how their location, velocity and acceleration in VANET. To prevent congestion on the road, grip map topology is use to divide the traffic, with the one lane road map, the vehicles density will very high, with load balance grid map topology the vehicles density will separated to other road. On simulation result we get the decrease performance on the load balacing of grid map mobility model. On the load balancing dynamic topology will cause scalability of the network and impact to performance of mobility model. From simulation, load balancing of grid map mobility model has lower performace than common grid map with 19,3% on delay, 5,08% on packet delivery ratio, and 5,46% on throughput with AODV parameters and 0,01% on delay, 12,70% on packet delivery ratio and 12,73% on throughput with DSDV parameters;VANET is an infrastucture less network that consist of entities or mobile nodes that contain wireless device for communicating each other. VANET has dynamic topology due to node mobility. VANET simulation is need mobility model that reflecting the real situation. Mobility model determines the movement of mobile nodes how their location, velocity and acceleration in VANET. To prevent congestion on the road, grip map topology is use to divide the traffic, with the one lane road map, the vehicles density will very high, with load balance grid map topology the vehicles density will separated to other road. On simulation result we get the decrease performance on the load balacing of grid map mobility model. On the load balancing dynamic topology will cause scalability of the network and impact to performance of mobility model. From simulation, load balancing of grid map mobility model has lower performace than common grid map with 19,3% on delay, 5,08% on packet delivery ratio, and 5,46% on throughput with AODV parameters and 0,01% on delay, 12,70% on packet delivery ratio and 12,73% on throughput with DSDV parameters, VANET is an infrastucture less network that consist of entities or mobile nodes that contain wireless device for communicating each other. VANET has dynamic topology due to node mobility. VANET simulation is need mobility model that reflecting the real situation. Mobility model determines the movement of mobile nodes how their location, velocity and acceleration in VANET. To prevent congestion on the road, grip map topology is use to divide the traffic, with the one lane road map, the vehicles density will very high, with load balance grid map topology the vehicles density will separated to other road. On simulation result we get the decrease performance on the load balacing of grid map mobility model. On the load balancing dynamic topology will cause scalability of the network and impact to performance of mobility model. From simulation, load balancing of grid map mobility model has lower performace than common grid map with 19,3% on delay, 5,08% on packet delivery ratio, and 5,46% on throughput with AODV parameters and 0,01% on delay, 12,70% on packet delivery ratio and 12,73% on throughput with DSDV parameters]"