Journal
JOURNAL OF LOW POWER ELECTRONICS AND APPLICATIONS
Volume 12, Issue 4, Pages -Publisher
MDPI
DOI: 10.3390/jlpea12040061
Keywords
smart edge computing; energy-efficiency; Internet-of-Things; low-power embedded systems; machine learning; CYSmart
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This paper discusses the application of edge computing in the Internet of Things and introduces embedded systems that enable energy-efficient execution of machine learning algorithms. It also surveys mainstream embedded computing devices for low-power IoT and edge computing, and introduces the innovative smart edge computing system CYSmart.
The edge computing paradigm for Internet-of-Things brings computing closer to data sources, such as environmental sensors and cameras, using connected smart devices. Over the last few years, research in this area has been both interesting and timely. Typical services like analysis, decision, and control, can be realized by edge computing nodes executing full-fledged algorithms. Traditionally, low-power smart edge devices have been realized using resource-constrained systems executing machine learning (ML) algorithms for identifying objects or features, making decisions, etc. Initially, this paper discusses recent advances in embedded systems that are devoted to energy-efficient ML algorithm execution. A survey of the mainstream embedded computing devices for low-power IoT and edge computing is then presented. Finally, CYSmart is introduced as an innovative smart edge computing system. Two operational use cases are presented to illustrate its power efficiency.
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