Learning Method of Performance-oriented Congestion Control (PCC) for Video Streaming Analysis

2021 9th International Conference on Information and Communication Technology (ICoICT) Pub Date : 2021-08-03 DOI:10.1109/ICoICT52021.2021.9527484

Rezy Noerdyah Ayu Saputri, H. Nuha, Sidik Prabowo

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引用次数: 1

Abstract

Transmission Control Protocol (TCP) congestion control architecture suffers from performance issues that are not optimal. Thus making the TCP and the variations have little hope of achieving high performance. This is due to the use of hardwired TCP mapping where each event has been assumed to be a specific disruption and TCP must cope with the incident without understanding the real condition of the network. This assumption results in performance degradation. Performance-oriented Congestion Control (PCC) is a new congestion control that makes every sender observing the action and network performance empirically to be able to take action that yields high performance. PCC has been tested in several cases. One case is video streaming. The experiment is designed to obtain the performance for video streaming in terms of throughput, delay, and packet loss for the PCC and the TCP to determine better performance results. Results from the testing of each metric in which TCP and PCC throughputs are 1064.841 and 150.825 kbps respectively. Delay of TCP and PCC are 5.326 ms and 3.843 ms respectively. Packet loss of TCP and PCC are 0.905% and 0.016%, respectively. So the PCC achieves good performances on the parameters of delay and packet loss. Whereas the TCP is shown to perform better in terms of throughput.

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面向性能的视频流拥塞控制(PCC)学习方法

传输控制协议(TCP)拥塞控制体系结构存在性能问题，不是最优的。从而使得TCP及其变种实现高性能的希望渺茫。这是由于使用硬连线TCP映射，其中每个事件都被假定为特定的中断，TCP必须在不了解网络实际情况的情况下处理事件。这种假设会导致性能下降。面向性能的拥塞控制(PCC)是一种新的拥塞控制，它使每个发送方根据经验观察动作和网络性能，从而能够采取产生高性能的动作。PCC已经在几个案例中进行了测试。视频流媒体就是一个例子。本实验旨在获得PCC和TCP在吞吐量、延迟和丢包方面的视频流性能，以确定更好的性能结果。TCP和PCC吞吐量分别为1064.841和150.825 kbps的每个度量的测试结果。TCP和PCC的时延分别为5.326 ms和3.843 ms。TCP丢包率为0.905%，PCC丢包率为0.016%。因此，PCC在时延和丢包参数上都取得了较好的性能。而TCP在吞吐量方面表现得更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2021 9th International Conference on Information and Communication Technology (ICoICT)

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