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2019 | OriginalPaper | Buchkapitel

Fog-Cloud Based Platform for Utilization of Resources Using Load Balancing Technique

verfasst von : Nouman Ahmad, Nadeem Javaid, Mubashar Mehmood, Mansoor Hayat, Atta Ullah, Haseeb Ahmad Khan

Erschienen in: Advances in Network-Based Information Systems

Verlag: Springer International Publishing

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Abstract

Fog based computing concept is used in smart grid (SG) to reduce the load on the cloud. However, fog covers the small geographical area by storing data temporarily and send furnished data to the cloud for long-term storage. In this paper, a fog and cloud base platform integrated is proposed for the effective management of energy in the smart buildings. A request generated from a cluster of building at demand side end is to be managed by Fog. For this purpose six fogs are considered for three different regions including Europe, Africa an North America. Moreover, each cluster is connected to fog, comprises of the multiple number of buildings. Each cluster contains thirty buildings and these buildings consisted 10 homes with multiple smart appliances. To fulfill the energy demand of consumer, Microgrids (MGs) are used through fog. These MGs are placed nearby the buildings. For effective energy utilization in smart buildings, the load on fog and cloud is managed by load balancing techniques using Virtual Machines (VMs). Different algorithms are used, such as Throttled, Round Robin (RR) and First Fit (FF) for load balancing techniques. These techniques are compared for closest data center service broker policy. This service broker policy is used for best fog selection. Although using the proposed policy, three load balancing algorithms are used to compare the result among them. The results showed that proposed policy outperforms cost wise.

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Titel: Fog-Cloud Based Platform for Utilization of Resources Using Load Balancing Technique
verfasst von: Nouman Ahmad
Nadeem Javaid
Mubashar Mehmood
Mansoor Hayat
Atta Ullah
Haseeb Ahmad Khan
Verlag: Springer International Publishing
Buch: Advances in Network-Based Information Systems
Print ISBN: 978-3-319-98529-9

Electronic ISBN: 978-3-319-98530-5

Copyright-Jahr: 2019
DOI: https://doi.org/10.1007/978-3-319-98530-5_48

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