Evaluation of packet loss impairment on streaming video

Abstract One of the popular internet services in use today is video streaming, either live (live streaming) or pre-recorder. Streaming video is a type of streaming media where data from video files is continuously transmitted over the internet to remote users. This fundamental problem appears to be influenced by the biggest factor which is the limited infrastructure of network resources which causes poor video quality. The process of digital video communication is known to consume quite a large resource, because in general the bandwidth requirements for sending Video and Audio signals. To maintain the quality of the video being played, there are several instruments needed, one of which is a data connection that is required to have Quality of Service (QoS). The parameters used in the measurement of QoS are delay, jitter, packet loss, throughput. This study uses the PPDIO method as a workflow with a Network Lifecycle approach. In this research, there are many factors that influence the quality of video, namely network factors and hardware factors. The test results obtained are not absolute, so it is possible that there will be differences in subsequent testing. Encoding also affects the quality of the video. Bandwidth equalization according to priority when the traffic conditions of all packets are full. Based on a comparative analysis of QoS parameter calculations using HTB and Diffserv methods, a comparison of throughput, jitter and delay does not differ greatly between clients. Keywords: Video Streaming, Diffserv, HTB, QoS Abstrak Salah satu layanan dari internet yang populer digunakan saat ini adalah video streaming, baik secara langsung (live streaming) atau pre-recorder. Streaming video merupakan jenis streaming media dimana data dari file video secara terus menerus dikirimkan melalui jaringan internet ke pengguna jarak jauh. Permasalahan mendasar ini muncul dipengaruhi oleh faktor terbesar yaitu terbatasnya infrastruktur sumber daya jaringan yang menyebabkan kualitas video yang buruk. Proses komunikasi digital video, diketahui menghabiskan resource yang cukup besar, dikarenakan Secara umum kebutuhan bandwidth untuk mengirimkan sinyal Video dan Audio. Guna menjaga kualitas dari video yang dimainkan, terdapat beberapa instrument yang dibutuhkan, salah satunya adalah koneksi data yang wajib memiliki Quality of Service (QoS). Adapun Parameter yang digunakan dalam pengukuran QoS adalah delay, jitter, packet loss, Throughput. Penelitian ini menggunakan metode PPDIO sebagai alur kerja dengan pendekatan Network Lifecycle. Pada penelitian ini didapat Banyak faktor yang mempengaruhi kualitas dari video yaitu faktor jaringan dan faktor dari Hardware. Hasil pengujian didapat tidaklah mutlak sehingga tidak menutup kemungkinan akan ada perbedaan pada pengujian selanjutnya. Encoding juga mempengaruhi kualitas dari video. pemerataan Bandwidth sesuai prioritasnya saat kondisi traffic seluruh paket penuh. Berdasarkan analisa perbandingan perhitungan parameter QoS menggunakan metode HTB dan Diffserv, didapatkan perbandingan troughput, jitter dan delay yang tidak berbeda jauh antara klien. Kata kunci: Video streaming, Diffserv, HTB, QoS

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Optimalisasi Performansi Video Streaming Dengan Menggunakan Protokol Next Steps In Signaling

JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) ◽

10.32486/jeecae.v3i1.205 ◽

2018 ◽

Vol 3 (1) ◽

pp. 157-162

Author(s):

Diah Risqiwati ◽

Habib Al Auladi ◽

Zamah Sari

Keyword(s):

Video Streaming ◽

Packet Loss ◽

Streaming Video

Layanan video streaming saat ini menjadi produk teknologi yang banyak dipakai diberbagai aplikasi. Namun dalam implementasi video streaming terdapat beberapa kendala, salah satunya kendala resource dan beban transmisi saat streaming video, jika beban video streaming besar sedangkan resource yang tersedia tidak mencukupi untuk melakukan streaming video, maka layanan akan diterima dengan tidak baik. Oleh karena itu pada penelitian ini akan mengimplementasikan protokol next steps in signaling (NSIS) yang merupakan sistem pensinyalan pada IP yang menyediakan sumber daya bandwidth yang peka terhadap keterbatasan bandwidth dan delay. pengujian akan dilakukan dengan melakukan streaming video dari client ke server yang akan dilewatkan diatas protokol NSIS kemudian mengukur QoS seperti delay, troughput, packet loss, jitter dan melakukan perbandingan antara streaming video dengan mengimplementasikan protokol NSIS dengan yang tidak mengimplementasikan protokol NSIS. Berdasarkan pengujian diketahui bahwa streaming video yang menggunakan protokol NSIS lebih baik secara QoS dibandingkan dengan yang tidak, rata-rata nilai delay pada protokol NSIS lebih rendah dibandingkan dengan yang tanpa menggunakan protokol NSIS.

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Streaming Video Perfomance FDD Mode in Handover Process on LTE Network

IJCCS (Indonesian Journal of Computing and Cybernetics Systems) ◽

10.22146/ijccs.27292 ◽

2018 ◽

Vol 12 (1) ◽

pp. 43 ◽

Cited By ~ 2

Author(s):

Cornelis Frederik Junifer Latupapua ◽

Tri Kuntoro Priyambodo

Keyword(s):

Packet Loss ◽

Data Transfer ◽

Streaming Video ◽

Network Simulator ◽

Test Results ◽

Service Capacity ◽

Lte Networks ◽

Lte Network ◽

Operational Costs ◽

Handover Process

LTE networks were created to improve on previous technologies, where the advantages of LTE networks are at the speed of data transfer and greater service capacity, reduced operational costs and can be integrated with existing technologies.This simulation is used to analyze the video performance of FDD streaming mode in handover process using Network Simulator 3 with 3 cell for different speed and number of users, with delay, packet loss and throughput parameters. The test results show that the performance of streaming video in handover process on all test, not affected by delay value. The highest delay value is still in good category that is 153. 43 ms. The highest packet loss is 54.5% with 60 users at speeds of 100 km / h. The highest throughput value is 0.60 Mbps at a speed of 40 km / h with 5 users and the lowest throughput value is 0.40 Mbps at a speed of 60 km / h with 60 users. The best performance occurred at a speed of 40 km / h, on the contrary at speeds of 70 Km / h and 100 Km / h, the performance decreased due to increased packet loss and decreased throughput value.

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Quality monitoring of streaming video based on packet-loss artifacts

The 19th Annual Wireless and Optical Communications Conference (WOCC 2010) ◽

10.1109/wocc.2010.5510633 ◽

2010 ◽

Author(s):

Liuming Lu ◽

Xiaoyuan Lu ◽

Jin Li

Keyword(s):

Packet Loss ◽

Streaming Video ◽

Quality Monitoring

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Analisis Kinerja Subscriber Station WiMAX di Urban Area Bandung

ELKOMIKA Jurnal Teknik Energi Elektrik Teknik Telekomunikasi & Teknik Elektronika ◽

10.26760/elkomika.v1i2.128 ◽

2013 ◽

Vol 1 (2) ◽

pp. 128

Author(s):

DWI ARYANTA

Keyword(s):

Packet Loss ◽

High Speed ◽

Communication Technologies ◽

Base Station ◽

Streaming Video ◽

Data Services ◽

Measurement Results ◽

Qam Modulation ◽

Subscriber Station ◽

High Speed Data

ABSTRAKTeknologi komunikasi wireless semakin pesat mengalami perkembangan. WiMAX merupakan suatu teknologi broadband yang didukung oleh standar IEEE 802.16d (802.16-2004) yang mampu memberikan layanan data berkecepatan tinggi hingga 75 Mbps dalam radius maksimal 40-50 km pada bandwidth 20 MHz. Alokasi frekuensi yang dipakai Indonesia untuk jaringan WiMAX ini ialah 3,3 – 3,4 GHz. Penelitian ini dilakukan dengan melakukan proses pengukuran kinerja perangkat radio WiMAX yaitu HiMax 331-SS. Proses pengukuran dilakukan antara CPE dan base station dengan antenna sektoral 1200 pada ketinggian 45 m. Lokasi pengukuran dilakukan di beberapa area kota Bandung yang telah ditentukan sebelumnya. Hasil pengukuran memperlihatkan nilai CINR tertinggi adalah 31 dB dengan modulasi 64 QAM – ¾ dan terendah nilai 10 dB dengan modulasi BPSK 1/2. Nilai RSSI tertinggi -54 dBm berada dan nilai RSSI terendah -89 dBm. Nilai throughput tertinggi untuk layanan streaming video sebesar 1000,8 kbps (downlink) dengan modulasi 64 QAM – ¾. Nilai delay terendah sebesar 56,247 ms pada kondisi LOS dan tertinggi sebesar 139,5 ms pada kondisi NLOS. Nilai terbesar packet loss sebesar 20% yaitu pada lokasi pengukuran terjauh 14,3 km.Kata Kunci: delay, packet loss, RSSI, CINR, throughput, CPE, WiMAX . ABSTRACTWireless communication technologies have evolved more rapidly. WiMAX is a broadband technology that is supported by the IEEE standard 802.16-2004/d which is able to provide high speed data services of up to 75 Mbps within a radius of 40-50 km at a maximum bandwidth of 20 MHz. Indonesia frequency allocation used for the WiMAX network is 3.3 to 3.4 GHz. This study was conducted with the performance measurement process that is Himax 331 WiMAX radio - SS. Process measurement is made between the CPE and base station sector antennas at a height of 45 m in 1200. Locations measurements performed in several areas of Bandung predetermined. The measurement results show the highest CINR value is 31 dB with 64 QAM modulation - ¾ and the lowest value of 10 dB with BPSK modulation half. The highest RSSI value of -54 dBm being the lowest and -89 dBm RSSI value. The highest throughput for streaming video services by 1000.8 kbps ( downlink ) with 64 QAM modulation - ¾. The lowest value was 56.247 ms delay in LOS conditions and the highest was 139.5 ms in NLOS conditions. The greatest value by 20 % packet loss is the farthest measurement locations 14.3 km.Keywords: delay, packet loss, RSSI, CINR, throughput, CPE, WiMAX .

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Analysis Of Quality Of Service (Qos) Youtube Streaming Video Service In Wireless Network In The Environment Faculty Of Science And Technology Uin Sunan Kalijaga

IJID (International Journal on Informatics for Development) ◽

10.14421/ijid.2018.07206 ◽

2019 ◽

Vol 7 (2) ◽

pp. 30 ◽

Cited By ~ 1

Author(s):

Asep Wishnu ◽

Bambang Sugiantoro

Keyword(s):

Wireless Networks ◽

Wireless Network ◽

Packet Loss ◽

Science And Technology ◽

Video Quality ◽

Streaming Video ◽

Quality Level ◽

Wireless Internet ◽

Wired Networks ◽

Delay Jitter

The growing number of internet users in Indonesia, making the number of users increasing especially video streaming on Youtube service. This increase is based on rapid technological developments, especially PCs, Laptops and Smartphones that use wireless or wireless internet access. The use of streaming video over wireless networks is different from cable networks Because The characteristics of wireless networks are limited Compared to wired networks, and the characteristics of streaming video transmissions that require different handling than traditional text, and the data transmissions. As a first step towards Achieving an optimum Internet network service effort, Applies Action Research This research method by utilizing video quality with 360p, 480p, and 720p. The QOS parameters Analyzed Consist of delay, jitter, throughput, packet loss and bandwidth using wireshark and NetTools for the testing phase. The results of analysis using QoS for streaming video shows the performance of wireless network services at UIN Sunan Kalijaga, Faculty of Science and Technology is still not maximal especially on video with 480p quality, that has a 20 ms delay and jitter quality level ms According -0.0269 to TIPHON is very good. The amount of throughput is 0:55 MBps throughput and the percentage is 3% and the packet loss value is 28%, if it is Categorized by TIPHON standardization bad this value falls into the category. For the average bandwidth used is 329 714 bps value.

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