The distinguishing feature of the Fog Computing (FC) paradigm is that FC spreads communication and computing resources over the wireless access network, so as to provide resource augmentation to resource and energy-limited wireless (possibly mobile) devices. Since FC would lead to substantial reductions in energy consumption and access latency, it will play a key role in the realization of the Fog of Everything (FoE) paradigm. The core challenge of the resulting FoE paradigm is tomaterialize the seamless convergence of three distinct disciplines, namely, broadband mobile communication, cloud computing, and Internet of Everything (IoE). In this paper, we present a new IoE architecture for FC in order to implement the resulting FoE technological platform. Then, we elaborate the related Quality of Service (QoS) requirements to be satisfied by the underlying FoE technological platform. Furthermore, in order to corroborate the conclusion that advancements in the envisioned architecture description, we present: (i) the proposed energy-aware algorithm adopt Fog data center; and, (ii) the obtained numerical performance, for a real-world case study that shows that our approach saves energy consumption impressively in the Fog data Center compared with the existing methods and could be of practical interest in the incoming Fog of Everything (FoE) realm.

Pooranian, Z., Shojafar, M., Naranjo, P., Chiaraviglio, L., Conti, M. (2017). A Novel Distributed Fog-Based Networked Architecture to Preserve Energy in Fog Data Centers. In Proceedings - 14th IEEE International Conference on Mobile Ad Hoc and Sensor Systems, MASS 2017 (pp.604-609). 345 E 47TH ST, NEW YORK, NY 10017 USA : Institute of Electrical and Electronics Engineers Inc. [10.1109/MASS.2017.33].

A Novel Distributed Fog-Based Networked Architecture to Preserve Energy in Fog Data Centers

Chiaraviglio L.;
2017-11-16

Abstract

The distinguishing feature of the Fog Computing (FC) paradigm is that FC spreads communication and computing resources over the wireless access network, so as to provide resource augmentation to resource and energy-limited wireless (possibly mobile) devices. Since FC would lead to substantial reductions in energy consumption and access latency, it will play a key role in the realization of the Fog of Everything (FoE) paradigm. The core challenge of the resulting FoE paradigm is tomaterialize the seamless convergence of three distinct disciplines, namely, broadband mobile communication, cloud computing, and Internet of Everything (IoE). In this paper, we present a new IoE architecture for FC in order to implement the resulting FoE technological platform. Then, we elaborate the related Quality of Service (QoS) requirements to be satisfied by the underlying FoE technological platform. Furthermore, in order to corroborate the conclusion that advancements in the envisioned architecture description, we present: (i) the proposed energy-aware algorithm adopt Fog data center; and, (ii) the obtained numerical performance, for a real-world case study that shows that our approach saves energy consumption impressively in the Fog data Center compared with the existing methods and could be of practical interest in the incoming Fog of Everything (FoE) realm.
14th IEEE International Conference on Mobile Ad Hoc and Sensor Systems, MASS 2017
Caribe Royale in Orlando, usa
2017
IEEE Computer Society
Rilevanza internazionale
22-ott-2017
16-nov-2017
Settore ING-INF/03 - TELECOMUNICAZIONI
English
distributed resource management
energy-efficiency
Fog computing (FC)
Fog of Everything (FoE)
Internet of Everything (IoE)
networked computing platform
Intervento a convegno
Pooranian, Z., Shojafar, M., Naranjo, P., Chiaraviglio, L., Conti, M. (2017). A Novel Distributed Fog-Based Networked Architecture to Preserve Energy in Fog Data Centers. In Proceedings - 14th IEEE International Conference on Mobile Ad Hoc and Sensor Systems, MASS 2017 (pp.604-609). 345 E 47TH ST, NEW YORK, NY 10017 USA : Institute of Electrical and Electronics Engineers Inc. [10.1109/MASS.2017.33].
Pooranian, Z; Shojafar, M; Naranjo, Pgv; Chiaraviglio, L; Conti, M
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/279138
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