Living on the Edge

IF 3.5 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Internet of Things Pub Date : 2021-07-01 DOI:10.1145/3450767

Thilina Buddhika, Matthew Malensek, S. Pallickara, S. Pallickara

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引用次数: 4

Abstract

Voluminous time-series data streams produced in continuous sensing environments impose challenges pertaining to ingestion, storage, and analytics. In this study, we present a holistic approach based on data sketching to address these issues. We propose a hyper-sketching algorithm that combines discretization and frequency-based sketching to produce compact representations of the multi-feature, time-series data streams. We generate an ensemble of data sketches to make effective use of capabilities at the resource-constrained edge devices, the links over which data are transmitted, and the server pool where this data must be stored. The data sketches can be queried to construct datasets that are amenable to processing using popular analytical engines. We include several performance benchmarks using real-world data from different domains to profile the suitability of our design decisions. The proposed methodology can achieve up to ∼ 13 × and ∼ 2, 207 × reduction in data transfer and energy consumption at edge devices. We observe up to a ∼ 50% improvement in analytical job completion times in addition to the significant improvements in disk and network I/O.

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生活在边缘

在连续传感环境中产生的大量时间序列数据流对摄取、存储和分析提出了挑战。在本研究中，我们提出了一种基于数据草图的整体方法来解决这些问题。我们提出了一种结合离散化和基于频率的素描的超素描算法，以产生多特征时间序列数据流的紧凑表示。我们生成一组数据草图，以便有效地利用资源受限的边缘设备上的功能、传输数据的链接以及必须存储数据的服务器池。可以查询数据草图以构建适合使用流行的分析引擎处理的数据集。我们使用来自不同领域的真实数据包括了几个性能基准，以分析我们的设计决策的适用性。所提出的方法可以在边缘设备上实现高达~ 13 ×和~ 2,207 ×的数据传输和能量消耗减少。除了磁盘和网络I/O方面的显著改进外，我们还观察到分析作业完成时间提高了50%。

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