When IoT Data Meets Streaming in the Fog

2022 IEEE 6th International Conference on Fog and Edge Computing (ICFEC) Pub Date : 2022-05-01 DOI:10.1109/icfec54809.2022.00014

Lydia Ait-Oucheggou, Mohammed Islam Naas, Y. H. Aoul, Jalil Boukhobza

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Abstract

IoT and video streaming are the main driving applications for digital data generation today. The traditional way of storing and processing data in the Cloud cannot satisfy many latency critical applications. This is why Fog computing emerged as a continuum infrastructure from the Cloud to end-user devices. Misplacing data in such an infrastructure results in high latency, and consequently increases the penalty for Internet Service Providers (ISPs) incurred by violating the service level agreement (SLA). In past studies, two issues have been investigated separately: the IoT data placement and the streaming cache placement. However, both placements rely on the same Fog distributed storage system. In this paper, we address those issues in a unique model with the aim to minimize the penalty for ISPs incurred by the SLA violation and maximize storage resources usage. We subdivided each Fog node storage space into a storage part and a cache part. First, our model consists in placing IoT data in the storage part of Fog nodes, and then placing streaming data in the cache part of these nodes. The novelty of our model is the flexibility it offers for managing the cache volume, which can, adaptively, spill on the free part dedicated to IoT data. Experiments show that using our model makes it possible to reduce the streaming data penalty of the ISP’s SLA violation by more than 47% on average.

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当物联网数据在雾中遇到流时

物联网和视频流是当今数字数据生成的主要驱动应用。传统的在云中存储和处理数据的方式不能满足许多延迟关键型应用程序。这就是为什么雾计算作为从云到终端用户设备的连续基础设施出现的原因。在这样的基础设施中错误地放置数据会导致高延迟，并因此增加了因违反服务级别协议(SLA)而对互联网服务提供商(isp)造成的惩罚。在过去的研究中，分别研究了两个问题:物联网数据放置和流缓存放置。然而，这两个位置都依赖于相同的Fog分布式存储系统。在本文中，我们在一个独特的模型中解决了这些问题，目的是尽量减少因违反SLA而对isp造成的惩罚，并最大限度地利用存储资源。我们将每个Fog节点的存储空间细分为存储部分和缓存部分。首先，我们的模型包括将物联网数据放在Fog节点的存储部分，然后将流数据放在这些节点的缓存部分。我们模型的新颖之处在于它为管理缓存量提供了灵活性，它可以自适应地溢出专用于物联网数据的空闲部分。实验表明，使用我们的模型可以将ISP违反SLA的流数据惩罚平均减少47%以上。

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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来源期刊

2022 IEEE 6th International Conference on Fog and Edge Computing (ICFEC)

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