QoS ANALYSIS ON THE ICONNET NETWORK SINGKAWANG CITY

Authors

  • Annisa Kynamehule Pulungan University of Tanjungpura
  • Jannus Marpaung
  • Fitri Imansyah

DOI:

https://doi.org/10.26418/j3eit.v11i3.68500

Keywords:

Qos, Video Call, Online Games, Wireshark

Abstract

The purpose of this study is to analyze the Quality of Service (QoS) parameters on the Iconnet network by measuring throughput, packet loss, delay and jitter parameters when doing online games (mobile legend) and video calls (WhatsApp) with a bandwidth of 10 Mbps and 20 Mbps using wireshark application. This study discusses the causes of reduced QoS parameter values on networks in Singkawang City, data were taken at 3 times, namely morning, afternoon and evening. From all the recapitulation of QoS parameter measurement results, it can be concluded that the value of each QoS parameter can vary for each package which includes bad, good and very good categories even on the same Bandwidth package. The causes of high and low values of QoS parameters are different, Throughput is caused by the number of arrivals of packets measured during the observation process, Packet Loss is caused by the number of queues that exceed capacity, Delay is caused by the low Throughput value and the number of packets sent while the Jitter value is affected by the Delay value. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. Packet Loss is caused by the number of queues that exceed capacity, Delay is caused by low Throughput values and the number of packets sent while the Jitter value is affected by the Delay value. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. Packet Loss is caused by the number of queues that exceed capacity, Delay is caused by low Throughput values and the number of packets sent while the Jitter value is affected by the Delay value. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result. External factors that can reduce the QoS value are weather conditions and the number of devices connected to the network. Network quality during the day and evening is the point when network traffic is very dense or traffic on the network is full (full traffic) where there are many users during these hours. The quality of data transfer speed is assessed with numbers 1 to 5, number 1 is the worst result, while number 5 is the best result.

References

​Apriadi Robianto, Fitri Imansyah, F. Trias Pontia W. (2021). Indihome network quality analysis with the Wireshark application for video calls and online games. Pontianak Untan Electrical Engineering Journal.

​Aryanta, D.(2013). Comparative Analysis of Triple Play Service Performance on IP and MPLS Networks Using NS2. Bandung: Department of Electrical Engineering Bandung National Institute of Technology.

Christian Handoko, Fitri Imansyah, F. Trias Pontia W. (2020). QoS (Quality Of Service) Analysis on USEETV VoD (Video On Demand) Services Using the IndiHome Network: Faculty of Engineering, University of Tanjungpura. Pontianak Untan Electrical Engineering Journal.

​Delsy Zarnavannie Sagita, Fitri Imansyah, F. Trias Pontia W. (2020). QoS (Quality Of Service) Analysis Of UseeTv VoD (Video On Demand) Services In Bengkayang City. Pontianak Untan Electrical Engineering Journal.

Damayanti, Nova Argita, et al. 2022. "Analysis of Quality of Service on the Iconnet Network Using the Wireshak Application". Tanjungpura University Electrical Engineering Journal.

​MN, Kusuma. 2023â€QoS and SINPO Analysis for Audio Video Services on the Indihome Network in Sanggau City†Journal of Electrical Engineering, Tanjungpura University.

ETSI, (2000). Telecommunications and Internet Protocol Harmonization Over Networks (TIPHON); End to End Quality Of Service in TIPHON Systems; Part 1: General aspects of Quality Of Service (QoS), France.

​FTTH Council Europe.(2011). FTTH handbooks; Fourth Edition. Zaventeem: FTTH Council Europe.

​Hartono Dwi Gunadi, Karyada. (2015). Fiber optic. Bandung: Informatics Bandung.

​ITU-T Recommendation G984.1.(2008). Gigabit-capable passive optical networks. Geneva.

​Kercheval, B.(2001). DHCP Guide For Dynamic TCP/IP Network Configuration.1:1-5.

Lukmanul Hakim, Fitri Imansyah, F Trias Pontia. (2019). Quality Identification of Range of Fm Radio Receivers in the Entikong Border Area. Pontianak Untan Electrical Engineering Journal.

​TIPHON. (1999). Telecommunications and Internet Protocol Harmonization Over Network (TIPHON); General aspects of Quality Of Service (QoS).DTR/TIPHON-05006(cb0010cs.PDF).France.

​Vegesna, Sriniva. (2001). IP Quality Of Service. Indiana Polish: Cisco Press,

Wibisono Gunawan, Gunadi Dwi Hantoro, Febrizal. (2020). Fiber optic network system. Bandung: Informatics Bandung

​Widhiatmoko Herry Purnomo, Farida Asriani, Hesti Susilawati.(2017). Analysis of Useetv Video On Demand Delay Quality Using Optical Fiber in the Purwokerto Area. Purwokerto. Electrical Engineering Study Program, Faculty of Engineering, Jenderal Soedirman University.

Yanto.(2013). QoS (Quality Of Service) Analysis on Internet Networks (Case Study: Faculty of Engineering, University of Tanjungpura). Pontianak Untan Electrical Engineering Journal.

Yoanes et al.(2006). Real Time Flow Measurement (RTFM) Method for Monitoring QoS in the Network.

​Yoga, KH(2014). UseeTV Traffic Analysis on Local Community Networks Using 802.11n in the Purwokerto Area. Purbalingga. Pontianak Untan Electrical Engineering Journal.

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Published

2023-12-05

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Articles