不同之处:数据流上重复弹性聚合的分布式、连续监控

Graham Cormode, S. Muthukrishnan, W. Zhuang
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引用次数: 74

摘要

传感器系统和全网IP流量分析的新兴应用提出了许多技术挑战。它们需要对事件进行分布式监控和连续跟踪。它们不仅在每个站点的每次更新处理时间和高速观测流的存档空间方面存在严重的资源限制,而且至关重要的是,在监测任务上进行协作的通信限制。这些因素在最近的一系列作品中得到了解决。出现的一个基本问题是,人们不能对以前工作中出现的观察事件做出“唯一性”假设,因为大规模监测总是在不同的点遇到相同的事件。例如,在互联网服务提供商的网络中,将在不同的路由器中观察到相同流的数据包;同样,在监测野生动物时,同一个体也会被多个移动传感器观察到。在这种分布式环境中,感兴趣的聚合必须对重复观察具有弹性。我们研究这样的重复弹性聚合,测量重复的程度——有多少独特的观察,有多少观察是独特的——以及标准的整体聚合,如分位数和独特项目的重击。在高速流的时间和空间限制下,我们为这些聚合提供了精度保证、通信效率高的算法。我们还介绍了对现实生活和合成数据进行详细实验研究的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
What’s Different: Distributed, Continuous Monitoring of Duplicate-Resilient Aggregates on Data Streams
Emerging applications in sensor systems and network-wide IP traffic analysis present many technical challenges. They need distributed monitoring and continuous tracking of events. They have severe resource constraints not only at each site in terms of per-update processing time and archival space for highspeed streams of observations, but also crucially, communication constraints for collaborating on the monitoring task. These elements have been addressed in a series of recent works. A fundamental issue that arises is that one cannot make the "uniqueness" assumption on observed events which is present in previous works, since widescale monitoring invariably encounters the same events at different points. For example, within the network of an Internet Service Provider packets of the same flow will be observed in different routers; similarly, the same individual will be observed by multiple mobile sensors in monitoring wild animals. Aggregates of interest on such distributed environments must be resilient to duplicate observations. We study such duplicate-resilient aggregates that measure the extent of the duplication―how many unique observations are there, how many observations are unique―as well as standard holistic aggregates such as quantiles and heavy hitters over the unique items. We present accuracy guaranteed, highly communication-efficient algorithms for these aggregates that work within the time and space constraints of high speed streams. We also present results of a detailed experimental study on both real-life and synthetic data.
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