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    An Energy and Delay-Efficient Partial Offloading Technique for Fog Computing architectures

    New search for: BOZORGCHENANI, ARASH
    New search for: TARCHI, DANIELE
    New search for: Arash, Bozorgchenani
    New search for: Daniele, Tarchi

    Fog computing is a fascinating paradigm which has drawn attention recently by bringing the cloud capabilities closer to the users. A fog computing infrastructure can be seen as composed by two layers: one including Fog Nodes (FNs) and another the Fog Access Points (F-APs). While FNs are usually battery operated, the F-APs are instead connected to the electrical networks having unlimited energy. Moreover, F-APs facilitate the computation of tasks due to their higher storage and computational capabilities compared to the FNs. Considering FN energy consumption and task processing delay, we propose a suboptimal partial offloading technique aiming at exploiting jointly both FNs and F-APs. The simulation results demonstrate how partial offloading has a profound impact on the network lifetime and reduces energy consumption and task processing delay by comparing the single and two layer architectures.

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    An Energy and Delay-Efficient Partial Offloading Technique for Fog Computing architectures

    New search for: BOZORGCHENANI, ARASH
    New search for: TARCHI, DANIELE
    New search for: Arash, Bozorgchenani
    New search for: Daniele, Tarchi

    Fog computing is a fascinating paradigm which has drawn attention recently by bringing the cloud capabilities closer to the users. A fog computing infrastructure can be seen as composed by two layers: one including Fog Nodes (FNs) and another the Fog Access Points (F-APs). While FNs are usually battery operated, the F-APs are instead connected to the electrical networks having unlimited energy. Moreover, F-APs facilitate the computation of tasks due to their higher storage and computational capabilities compared to the FNs. Considering FN energy consumption and task processing delay, we propose a suboptimal partial offloading technique aiming at exploiting jointly both FNs and F-APs. The simulation results demonstrate how partial offloading has a profound impact on the network lifetime and reduces energy consumption and task processing delay by comparing the single and two layer architectures.

    Access

    Download

    An Energy and Delay-Efficient Partial Offloading Technique for Fog Computing architectures

    New search for: BOZORGCHENANI, ARASH
    New search for: TARCHI, DANIELE
    New search for: Arash, Bozorgchenani
    New search for: Daniele, Tarchi

    Fog computing is a fascinating paradigm which has drawn attention recently by bringing the cloud capabilities closer to the users. A fog computing infrastructure can be seen as composed by two layers: one including Fog Nodes (FNs) and another the Fog Access Points (F-APs). While FNs are usually battery operated, the F-APs are instead connected to the electrical networks having unlimited energy. Moreover, F-APs facilitate the computation of tasks due to their higher storage and computational capabilities compared to the FNs. Considering FN energy consumption and task processing delay, we propose a suboptimal partial offloading technique aiming at exploiting jointly both FNs and F-APs. The simulation results demonstrate how partial offloading has a profound impact on the network lifetime and reduces energy consumption and task processing delay by comparing the single and two layer architectures.

    Access

    Download

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    Title:

    An Energy and Delay-Efficient Partial Offloading Technique for Fog Computing architectures

    Contributors:

    BOZORGCHENANI, ARASH (author) / TARCHI, DANIELE (author) / CORAZZA, GIOVANNI EMANUELE (author) / Arash, Bozorgchenani / Daniele, Tarchi / Giovanni Emanuele Corazza

    Publication date:

    2017-01-01

    DOI:

    https://doi.org/10.1109/GLOCOM.2017.8254703

    Type of media:

    Conference paper

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Fog Networking , Energy Efficient communication , Delay efficient communications , Partial offloading , Fog Computing

    Classification:

    DDC:  690

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