The Unavoidable Convergence of NFV, 5G, and Fog: A Model-Driven Approach to Bridge Cloud and Edge

Frank Van Lingen; Marcelo Yannuzzi; Anuj Jain; Rik Irons-Mclean; Oriol Lluch; David Carrera; Juan Luis Perez; Alberto Gutierrez; Diego Montero; Josep Marti; Ricard Maso; Juan Pedro Rodriguez

doi:10.1109/MCOM.2017.1600907

The Unavoidable Convergence of NFV, 5G, and Fog: A Model-Driven Approach to Bridge Cloud and Edge

Frank Van Lingen
, Marcelo Yannuzzi
, Anuj Jain
, Rik Irons-Mclean
, Oriol Lluch
, David Carrera
, Juan Luis Perez
, Alberto Gutierrez
, Diego Montero
, Josep Marti
, Ricard Maso
, Juan Pedro Rodriguez

Research output: Contribution to journal › Article › peer-review

75 Scopus citations

Abstract

The interplay between cloud and fog computing is crucial for the evolution of IoT, but the reach and specification of such interplay is an open problem. Meanwhile, the advances made in managing hyper-distributed infrastructures involving the cloud and the network edge are leading to the convergence of NFV and 5G, supported mainly by ETSI's MANO architecture. This article argues that fog computing will become part of that convergence, and introduces an open and converged architecture based on MANO that offers uniform management of IoT services spanning the continuum from the cloud to the edge. More specifically, we created the first YANG models for fog nodes, for IoT services involving cloud, network, and/or fog, and expanded the concept of «orchestrated assurance» to provision carrier-grade service assurance in IoT. The article also discusses the application of our model in a flagship pilot in the city of Barcelona.

Original language	English
Article number	8004150
Pages (from-to)	28-35
Number of pages	8
Journal	IEEE Communications Magazine
Volume	55
Issue number	8
DOIs	https://doi.org/10.1109/MCOM.2017.1600907
State	Published - 2017
Externally published	Yes

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10.1109/MCOM.2017.1600907

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Van Lingen, F., Yannuzzi, M., Jain, A., Irons-Mclean, R., Lluch, O., Carrera, D., Perez, J. L., Gutierrez, A., Montero, D., Marti, J., Maso, R., & Rodriguez, J. P. (2017). The Unavoidable Convergence of NFV, 5G, and Fog: A Model-Driven Approach to Bridge Cloud and Edge. IEEE Communications Magazine, 55(8), 28-35. Article 8004150. https://doi.org/10.1109/MCOM.2017.1600907

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title = "The Unavoidable Convergence of NFV, 5G, and Fog: A Model-Driven Approach to Bridge Cloud and Edge",

abstract = "The interplay between cloud and fog computing is crucial for the evolution of IoT, but the reach and specification of such interplay is an open problem. Meanwhile, the advances made in managing hyper-distributed infrastructures involving the cloud and the network edge are leading to the convergence of NFV and 5G, supported mainly by ETSI's MANO architecture. This article argues that fog computing will become part of that convergence, and introduces an open and converged architecture based on MANO that offers uniform management of IoT services spanning the continuum from the cloud to the edge. More specifically, we created the first YANG models for fog nodes, for IoT services involving cloud, network, and/or fog, and expanded the concept of «orchestrated assurance» to provision carrier-grade service assurance in IoT. The article also discusses the application of our model in a flagship pilot in the city of Barcelona.",

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AU - Jain, Anuj

AU - Irons-Mclean, Rik

AU - Lluch, Oriol

AU - Carrera, David

AU - Perez, Juan Luis

AU - Gutierrez, Alberto

AU - Montero, Diego

AU - Marti, Josep

AU - Maso, Ricard

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AB - The interplay between cloud and fog computing is crucial for the evolution of IoT, but the reach and specification of such interplay is an open problem. Meanwhile, the advances made in managing hyper-distributed infrastructures involving the cloud and the network edge are leading to the convergence of NFV and 5G, supported mainly by ETSI's MANO architecture. This article argues that fog computing will become part of that convergence, and introduces an open and converged architecture based on MANO that offers uniform management of IoT services spanning the continuum from the cloud to the edge. More specifically, we created the first YANG models for fog nodes, for IoT services involving cloud, network, and/or fog, and expanded the concept of «orchestrated assurance» to provision carrier-grade service assurance in IoT. The article also discusses the application of our model in a flagship pilot in the city of Barcelona.

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The Unavoidable Convergence of NFV, 5G, and Fog: A Model-Driven Approach to Bridge Cloud and Edge

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