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TinyML for Ultra-Low Power AI and Large Scale IoT Deployments: A Systematic Review

Nikolaos Schizas, Aristeidis Karras, Christos Karras, Spyros Sioutas

2022Future Internet186 citationsDOIOpen Access PDF

Abstract

The rapid emergence of low-power embedded devices and modern machine learning (ML) algorithms has created a new Internet of Things (IoT) era where lightweight ML frameworks such as TinyML have created new opportunities for ML algorithms running within edge devices. In particular, the TinyML framework in such devices aims to deliver reduced latency, efficient bandwidth consumption, improved data security, increased privacy, lower costs and overall network cost reduction in cloud environments. Its ability to enable IoT devices to work effectively without constant connectivity to cloud services, while nevertheless providing accurate ML services, offers a viable alternative for IoT applications seeking cost-effective solutions. TinyML intends to deliver on-premises analytics that bring significant value to IoT services, particularly in environments with limited connection. This review article defines TinyML, presents an overview of its benefits and uses and provides background information based on up-to-date literature. Then, we demonstrate the TensorFlow Lite framework which supports TinyML along with analytical steps for an ML model creation. In addition, we explore the integration of TinyML with network technologies such as 5G and LPWAN. Ultimately, we anticipate that this analysis will serve as an informational pillar for the IoT/Cloud research community and pave the way for future studies.

Topics & Concepts

Computer scienceCloud computingLPWANAnalyticsInternet of ThingsEdge deviceComputer securityData scienceOperating systemIoT and Edge/Fog ComputingAdvanced Memory and Neural ComputingAdvanced Sensor and Energy Harvesting Materials
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