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引用次数: 12
摘要
网络路径延迟是决定路径质量的重要指标。因此,往返时间(RTT)在覆盖网络构建协议、点对点服务和基于邻近的服务器重定向等多个协议和应用程序中发挥切实作用也就不足为奇了。不幸的是,目前的RTT测量工具报告延迟,没有进一步了解路径条件。因此,应用程序通常通过发送大量探针来估计最小RTT,以获得对测量的RTT的置信度。然而,大量的探测并不能直接转化为更好的信心。通常,最小RTT可以用几个探头测量。基于Z. Wang等人对路径RTT的观测(参见Proc. Passive & Active Measurement Workshop - PAM'03, 2003),我们开发了一套技术,不仅可以测量最小路径RTT,还可以将其与显示测量过程中路径状况的置信度相关联。我们的工具,称为RTTometer,能够提供与路径RTT相关的置信度度量。此外,给定所需的置信度,RTTometer根据路径的条件动态调整探针的数量。我们描述了我们在RTTometer中实现的技术,并介绍了我们使用RTTometer在互联网的各种代表性路径上估计RTT的初步经验。
RTTometer: measuring path minimum RTT with confidence
Internet path delay is a substantial metric in determining path quality. Therefore, it is not surprising that round-trip time (RTT) plays a tangible role in several protocols and applications, such as overlay network construction protocol, peer-to-peer services, and proximity-based server redirection. Unfortunately, current RTT measurement tools report delay without any further insight about path condition. Therefore, applications usually estimate minimum RTT by sending a large number of probes to gain confidence in the measured RTT. Nevertheless, a large number of probes does not directly translate to better confidence. Usually, minimum RTT can be measured using few probes. Based on observations of path RTT presented by Z. Wang et al. (see Proc. Passive & Active Measurement Workshop - PAM'03, 2003), we develop a set of techniques, not only to measure minimum path RTT, but also to associate it with a confidence level that reveals the condition on the path during measurement. Our tool, called RTTometer, is able to provide a confidence measure associated with path RTT. Besides, given a required confidence level, RTTometer dynamically adjusts the number of probes based on a path's condition. We describe our techniques implemented in RTTometer and present our preliminary experiences using RTTometer to estimate RTT on various representative paths of the Internet.
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