Enabling stream processing for people-centric IoT based on the fog computing paradigm

Dimitrios Amaxilatis, O. Akrivopoulos, I. Chatzigiannakis, C. Tselios
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引用次数: 18

Abstract

The world of machine-to-machine (M2M) communication is gradually moving from vertical single purpose solutions to multi-purpose and collaborative applications interacting across industry verticals, organizations and people — a world of Internet of Things (IoT). The dominant approach for delivering IoT applications relies on the development of cloud-based IoT platforms that collect all the data generated by the sensing elements and centrally process the information to create real business value. In this paper, we present a system that follows the Fog Computing paradigm where the sensor resources, as well as the intermediate layers between embedded devices and cloud computing datacenters, participate by providing computational, storage, and control. We discuss the design aspects of our system and present a pilot deployment for the evaluating the performance in a real-world environment. Our findings indicate that Fog Computing can address the ever-increasing amount of data that is inherent in an IoT world by effective communication among all elements of the architecture.
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基于雾计算范式,为以人为中心的物联网实现流处理
机器对机器(M2M)通信的世界正逐渐从垂直的单一用途解决方案转变为跨行业垂直、组织和人员交互的多用途协作应用——物联网(IoT)的世界。交付物联网应用的主要方法依赖于基于云的物联网平台的开发,该平台收集由传感元件生成的所有数据,并对信息进行集中处理,以创造真正的商业价值。在本文中,我们提出了一个遵循雾计算范式的系统,其中传感器资源以及嵌入式设备和云计算数据中心之间的中间层通过提供计算、存储和控制来参与。我们讨论了系统的设计方面,并给出了一个试验部署,用于在实际环境中评估性能。我们的研究结果表明,雾计算可以通过架构中所有元素之间的有效通信来解决物联网世界中固有的不断增长的数据量。
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