Large-scale measurement and analysis of one-way delay in hybrid multicast networks

37th Annual IEEE Conference on Local Computer Networks Pub Date : 2012-10-22 DOI:10.1109/LCN.2012.6423669

Sebastian Meiling, T. Schmidt, Matthias Wählisch

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引用次数: 9

Abstract

Group communication plays an important role in the distribution of real-time data for IPTV, multimedia conferencing, or online multiplayer games, but IP multicast remains unsupported in today's global Internet. Hybrid solutions that bridge between overlay and underlay multicast are a promising escape from the deployment dilemma of multicast. In this paper, we examine the real-time capabilities of hybrid multicast in a globally distributed environment based on our adaptive architecture H8Mcast within the Planet-Lab testbed. We present a large-scale measurement study and analysis of one-way packet delay distributions in several realistic group scenarios. The unique results in global traces of hybrid multicast data have been achieved by carefully tracking packets and continuously correcting clock offsets. Companion measurements of unicast-based distribution are part of our analysis, as well as the comparative discussion of our results with previous findings from theory and simulation. Our measurements reveal that about 50% of global group members experience a real-time compliant service within the conversational time bounds of 150 ms.

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混合组播网络中单向时延的大规模测量与分析

群通信在IPTV、多媒体会议或在线多人游戏的实时数据分发中起着重要作用，但IP多播在当今的全球互联网中仍然不受支持。在覆盖组播和底层组播之间架起桥梁的混合解决方案有望摆脱组播的部署困境。在本文中，我们在Planet-Lab测试平台上，基于我们的自适应架构H8Mcast，研究了混合多播在全球分布式环境中的实时能力。我们提出了一个大规模的测量研究和分析单向数据包延迟分布在几个现实的群体场景。通过仔细跟踪数据包和不断校正时钟偏移，实现了混合组播数据全局跟踪的独特结果。基于单播分布的配套测量是我们分析的一部分，以及我们的结果与先前的理论和模拟结果的比较讨论。我们的测量显示，大约50%的全球群组成员在150毫秒的会话时间范围内体验到实时兼容的服务。

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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37th Annual IEEE Conference on Local Computer Networks

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