Mustika, Anusa (2019) Analisis Quality of Service (QoS) Jaringan Komunikasi Pada Mini SCADA. Other thesis, Institut Teknologi Sepuluh Nopember.
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Abstract
Kualitas Layanan atau Quality of Service merupakan metode pengukuran tentang seberapa baik jaringan dan merupakan suatu usaha untuk mendefiniskan karakteristik dan sifat dari suatu servis. Mengacu pada dibuatnya Mini SCADA sebagai media pembelajaran di lingkungan Kampus/ Laboratorium, sistem dapat mengontrol jarak jauh, mendapatkan metering, dan juga mendapatkan status dari suatu sistem pada jarak jauh secara real time, maka diperlukan pengetahuan mengenai QoS. Pengujian dilakukan dengan menggunakan dua media yaitu kabel Ethernet dan WiFi, dan pada saat kondisi tidak ada beban traffic dan diberikan beban traffic. Hal ini mengimplementasikan dari kondisi traffic di lapangan yang meningkat atau pada saat kondisi traffic padat. Namun adanya keterbatasan pada peralatan yang digunakan maka pengujian QoS dilakukan dengan melakukan penambahan beban traffic oleh software “tfgen”. Kemudian hasil dari QoS berupa throughput, delay, jitter, dan packet loss di-capture menggunakan wireshark, dan kondisi diklasifikasikan dari jaringan Mini SCADA menurut standar ETSI TIPHON. Melalui pengujian tersebut diketahui bahwa pada pengujian tanpa beban traffic didapatkan indeks QoS “Sangat Memuaskan” dimana nilai dari parameter QoS memenuhi standar dengan nilai persentase throughput 100%, packet loss 0%, delay <150 ms, dan jitter <75 ms. Pada uji menggunakan beban traffic, parameter Quality of Service yang terpengaruh adalah delay.
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Quality of Service is a method of determining about good networks and is an attempt to define the characteristics and nature of a service. Referring to the making of Mini SCADA as a learning media in the Campus / Laboratory Environment, the system can control the distance, get measurements, and also get the status of the system remotely in real time, so knowledge about QoS is needed. Tests are carried out using two media, Ethernet cable and WiFi, and during conditions there are no traffic disturbances and interference is provided. This is designed from increased traffic conditions or during heavy traffic conditions. However, the limitations that exist in the equipment used then QoS testing is done by increasing the traffic caused by software "tfgen". Then the results of QoS consist of throughput, delay, jitter, and packet loss captured using a wireshark, and using conditions from the Mini SCADA network according to the ETSI TIPHON standard. Through testing published on testing without traffic load that the "Very Good" QoS index was obtained where the values of QoS parameters met the standard with 100% throughput, 0% packet loss, <150 ms delay, and <75 ms jitter. In testing using load traffic, the Quality of Service parameters that get a delay.
Item Type: | Thesis (Other) |
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Additional Information: | RSE 621.387 8 Mus a-1 2019 |
Uncontrolled Keywords: | Traffic, QoS, SCADA, Throughput, Jitter, Delay |
Subjects: | H Social Sciences > HD Industries. Land use. Labor > HD30.335 Communication systems H Social Sciences > HD Industries. Land use. Labor > HD9980.5 Service industries--Quality control. T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5105.5956 Quality of service. Reliability Including network performance |
Divisions: | Faculty of Electrical Technology > Electrical Engineering > 20201-(S1) Undergraduate Thesis |
Depositing User: | Mustika Anisa |
Date Deposited: | 03 May 2023 01:30 |
Last Modified: | 03 May 2023 01:30 |
URI: | http://repository.its.ac.id/id/eprint/63861 |
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