2,341 research outputs found
Aplikasi Pengaruh Quality of Service (Qos) Video Conference Pada Trafik H.323 Dengan Menggunakan Metode Differentiated Service (Diffserv)
Dewasa ini, penggunaan teknologi conferenceberbasis IP dengan menggunakan protokol H.323. Meskidemikian, pada Kenyataannya kualitas teknologi videoconference yang baik belum terjamin. Untuk itu, perlusebuah pelayanan atau service yang dapat memberikanprioritas paket dan menekan gangguan dalam lalu lintasjaringan conference. Salah satu layanan tersebut yaituDifferentiated Service (Diffserv). Layanan ini dibuat untukmembagi aliran IP ke dalam kelas-kelas yang akan langsungditransmisikan dengan cara menentukan kapasitasbandwidth, klasifikasi trafik, pemilihan mekanisme antrian(queueing) dan traffic shapping. Pada penelitian ini, telahdiaplikasikan Quality of Service (QoS) videoconference padatrafik H.323 dengan menggunakan metode DifferentiatedService (DiffServ) dan berhasil mengukur pengaruhbesarnya throughput paket ketika jaringan dalam keadaancongested atau sesak serta dibebankan delay juga jitter.Semakin besar delay dan jitter yang diberikan, semakin besarketidakstabilan throughput yang dihasilkan. Pada trafikcongested, QoS memberikan prioritas pada paket H.323sehingga throughput yang dihasilkan mendekati kondisitanpa sesak dibandingkan paket-paket lain
Analisa Quality Of Service (QoS) Trafik Multimedia pada Pemodelan Jaringan Multiprotocol Label Switching (MPLS) Menggunakan Router Mikrotik
Quality of Service (QoS) is a performance indicator on many communication systems. The Multiprotocol Label Switching (MPLS) is a part of the communication system. One of approach to find out QoS performance indicator for MPLS is using of a Mikrotik router. The network testing scenario using bus topology, where different types of traffic is delivered audio and video streaming that has a variety of different file sizes. The first scenario involving 1 client to send and the other scenario involving 2 client to send. The result show that MPLS network meets ITU-T G.114 standards where the average accepted delay for packet data transmission is less than 150 ms, in the simulation results indicates that the delay value is below of 150 ms in both scenarios. The value of packet loss based on ITU-T G.1010 standard is less than 1% where the simulation results indicate that packet loss value is below 1% in both scenarios. Overall, the MPLS network is proven to serve a heavy multimedia traffic
Analisis Coverage Dan Quality of Service Jaringan WiFi 2,4 GHz Di STMIK STIKOM Indonesia
The rapid development of technology, especially mobile technology requires a network infrastructure that supports mobile devices. One of them is a wireless device that is WiFi (wireless Fidelity). STMIK STIKOM (STIKI) Indonesia is one of the campuses that have implemented WiFi technology to support teaching and learning activities. STIKI has installed 8 access points that are used to serve the civitas internet users. To know the performance of WiFi network in STIKI Indonesia, it is necessary to analyze the performance of WiFi network by measuring signal coverage and quality of service (QOS) analysis. In this research, coverage measurement is done by using android application WiFi Heat Mapper and QOS measurement is done by using wireshark application. The measured parameters of QOS are throughput, delay, jitter, and packet loss. Based on the measurements made the results obtained for signal coverage there are still some areas covered by a very small signal strength. Then for QOS measurement it is found that performance of WiFi network based on parameter of throughput, delay, jitter, and packet loss are in good category
Analisis Quality of Service (QoS) Pada Jaringan Hotspot SMA Negeri XYZ
Jaringan yang baik harus memperhatikan kualitas layanan yang akan diberikan kepada pengguna. Ketika membangun sebuah jaringan harus memperhitungkan Quality of Service (QoS). Quality of Service (QoS) merupakan metode pengukuran seberapa baik suatu layanan jaringan. parameter-parameter Quality of Service (QoS) yaitu troughput,delay,jitter,dan packet loss menurut standart THIPON.Pada SMA Negeri XYZ untuk mendukung proses pembelajaran menyediakan sarana dan prasarana tambahan, salah satunya ialah tersedianya jaringan internet. Layanan internet pada sekolah ini mengguakan Internet Service Provider (ISP) dari PT Telkom Indonesia dan bandwidth yang di sewa sebesar 40Mbps. SMA Negeri XYZ menyediakan jaringan hotspot sebagai sarana untuk guru atau siswa menggunakan jaringan internet. Oleh karena itu sangat diperlukan pengukuran untuk mengetahui seberapa baik kualitas layanan yang telah diberikan. Hasil dari pengukuran Quality of Service (QoS) pada jaringan hotspot SMA Negeri XYZ dapat diketahui bahwa troughputnya sebesar “3,94 bps”, delay sebesar “0 ms”, Jitter sebesar “0 ms”, dan packet loss sebesar ” 11,46 %”. Maka dapat di simpulkan bahwa kualitas jaringan hotspot pada SMA Negeri XYZ menurut standart THIPON masuk dalam kategori “Sedang”
Analisa Perbandingan Quality Of Service (QoS) pada Jaringan Backbone Non-MPLS dengan Jaringan Backbone MPLS Menggunakan Routing Protocol OSPF di PT. Telekomunikasi Indonesia, Tbk. Witel Ridar Riau
The development of telecommunications technology based on Internet Protocol (IP) is now growing with the competitiveness of the telecommunications company to improve the quality of service to consumers. It can be obtained by increasing the quality backbone network using Multi Protocol Label Switching (MPLS). MPLS is a new technology to forward the packet to the backbone network without changing the existing network structure. The main idea is to construct a replacement MPLS paths using label switching and distribute traffic into it. This paper compare the Qualty of Service (QoS) on Non-MPLS backbone network to MPLS backbone network with OSPF routing protocol on the PT. Telecommunication Indonesia, Tbk. Witel Ridar Riau. The Software simulation using Graphical Network Simulator (GNS3) is analyze by observing QoS are delay, packet loss, throughput, and jitter with Wireshark. In this research, there are two scenarios that will be analyzed. The first scenarios analyze the customer site make deliveries to one another customer site and the second scenarios analyze two customer sites make deliveries to the customer site simultaneously. The results show that the highest delay in the first scenario is better MPLS backbone network at 0.029999 s and 0.0124 s in the second scenario than Non-MPLS backbone network. It Followed by the highest value of packet loss on the network backbone MPLS and non-MPLS are equal 0% and in the second scenario, MPLS is better 0% than non-MPLS. The Throughput has same trend with the highest value in the first scenario MPLS backbone network is better 0.0085 Mbps and 0011 Mbps in the second scenario than Non-MPLS backbone network. Meanwhile the highest jitter values in the first scenario MPLS backbone network is better too at 0.3595995 s and 1.544403 s on the second scenario than the non-MPLS
Dynamic bandwidth allocation with SLA awareness for QoS in ethernet passive optical networks
Quality-of-service (QoS) support in Ethernet passive optical networks is a crucial concern. We propose a new dynamic bandwidth allocation (DBA) algorithm for service differentiation that meets the service-level agreements (SLAs) of the users. The proposed delay-aware (DA) online DBA algorithm provides constant and predictable average packet delay and reduced delay variation for the high-and medium-priority traffic while keeping the packet loss rate under check. We prove the effectiveness of the proposed algorithm by exhaustive simulations
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