Abstract
The Internet of Things (IoT) ecosystem, as fostered by fifth generation (5G) applications, demands a highly available network infrastructure. In particular, the Internet of Vehicles use cases, as a subset of the overall IoT environment, require a combination of high availability and low latency in big volume support. This can be enabled by a network function virtualization architecture that is able to provide resources wherever and whenever needed, from the core to the edge up to the end user proximity, in accordance with the fog computing paradigm. In this article, we propose a fog-enabled cellular vehicle-to-everything architecture that provides resources at the core, the edge and the vehicle layers. The proposed architecture enables the connection of virtual machines, containers and unikernels that form an application-as-a-service function chain that can be deployed across the three layers. Furthermore, we provide lifecycle management mechanisms that can efficiently manage and orchestrate the underlying physical resources by leveraging live migration and scaling functionalities. Additionally, we design and implement a 5G platform to evaluate the basic functionalities of our proposed mechanisms in real-life scenarios. Finally, the experimental results demonstrate that our proposed scheme maximizes the accepted requests, without violating the applications' service level agreement.
Highlights
Traffic safety, reduced air pollution and regulation of vehicle traffic flows, are only few examples forThe Internet of Things (IoT) ecosystem is a collection of billions of devices, such as sensors, that are connected among them and with the Internet
Contreras is with Telefónica I+D / Global CTIO Unit; Angelos Antonopoulos and Christos Verikoukis are with CTTC/CERCA
We provide an experimental 5G platform implementation, based on open source software and common hardware, while we enhance the shortcomings of an open source network function virtualization (NFV) orchestrator (NFVO) in order to support migration decisions
Summary
Traffic safety, reduced air pollution and regulation of vehicle traffic flows, are only few examples forThe Internet of Things (IoT) ecosystem is a collection of billions of devices, such as sensors, that are connected among them and with the Internet. According to Ericsson’s mobility report, the 10.8 billion IoT connections of 2019 are expected to reach the number of 24.9 billion by the end of 2025, which means a compound annual growth rate (CAGR) of 15 percent [1]. When it comes to cellular networks, and as the fifth generation of wireless improving the quality of life. For example, could collect real-time weather information from road condition sensors, such as surface conditions (e.g., temperature, humidity, salinity, and so on.). Contreras is with Telefónica I+D / Global CTIO Unit; Angelos Antonopoulos and Christos Verikoukis are with CTTC/CERCA
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