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151. MEC and D2D as Enabling Technologies for a Secure and Lightweight 6G eHealth System

Author

Sara Pizzi, Giuseppe Araniti, Chiara Suraci, and Antonella Molinaro

Subjects
Computer Networks and Communications, business.industry, Computer science, Data security, Digital health, Computer Science Applications, Data access, Hardware and Architecture, Information and Communications Technology, Signal Processing, eHealth, Systems architecture, The Internet, business, Telecommunications, Edge computing, Information Systems
Abstract

The COVID-19 pandemic has changed the world. Today, the use of Information and Communications Technology (ICT) in support of education, medicine, business and administration has become a reality practically everywhere. In particular, the eHealth (digital Health) sector is on the cusp of a revolution, fueled by the worldwide health emergency due to the spread of the new coronavirus. With a view to developing new sixth generation (6G)-oriented architectures, advanced eHealth services like telemonitoring would benefit from the support of technologies that guarantee secure data access, ultra-low latency and very-high reliability targets, which are hardly achievable by the fifth generation (5G). This is the reason why this work proposes an eHealth system architecture, in which low-latency enabling technologies like Device-to-Device (D2D) communications and Multi-access Edge Computing (MEC) are integrated and supported by security mechanisms for an optimal management of sensitive health data collected by Internet of Medical Things (IoMT) devices. A preliminary evaluation of the proposed framework is provided that shows promising results in terms of data security and latency reduction.

Published
2022
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153. Beyond Edge Caching: Freshness and Popularity Aware IoT Data Caching via NDN at Internet-Scale

Author

Antonella Molinaro, Marica Amadeo, Claudia Campolo, and Giuseppe Ruggeri

Subjects
Computer Networks and Communications, Renewable Energy, Sustainability and the Environment, Network packet, Computer science, business.industry, Probabilistic logic, Core network, Path (graph theory), The Internet, Enhanced Data Rates for GSM Evolution, Cache, business, Wireless sensor network, Computer network
Abstract

In-network caching is one of the main pillars of the Named Data Networking (NDN) paradigm, where every Internet router, in the path between data sources and consumers, can cache incoming content packets. Multiple strategies have been designed for caching Internet of Things (IoT) data streamed by resource-constrained devices in edge domains and wireless sensor networks, while the benefits of IoT data caching at Internet-scale, including both edge and core network segments, have not been fully disclosed. In this work, we propose and analyse a novel probabilistic Internet-scale caching design for IoT data, which jointly accounts for the content popularity and lifetime. In the considered scenario, IoT contents are requested by remote consumers and delivered by crossing multiple edge and core network segments of the NDN-based future Internet. The proposal is composed of two distinct reactive caching strategies, a coordinated and an autonomous one, to be implemented in the edge and core domain, respectively. Achieved results show that the proposal outperforms state-of-the-art solutions by providing, among others, the highest cache hit ratio and the shortest number of hops. Such performances testify a lower pressure on energyconstrained devices and on the network infrastructure, overall contributing to the sustainability of the IoT ecosystem.

Published
2022
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