Mobility-Aware Fog Computing in Dynamic Environments: Understandings and Implementation

Fog computing is an epitome to enable provisioning resources and services beyond the cloud, at the edge of the network, and nearer to end devices. Fog computing is not a counterfeit for cloud computing but a persuasive counterpart. However, the mobility of end users and/or fog nodes brings a major d...

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Veröffentlicht in:	IEEE access 2019, Vol.7, p.38867-38879
Hauptverfasser:	Waqas, Muhammad, Niu, Yong, Ahmed, Manzoor, Li, Yong, Jin, Depeng, Han, Zhu
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Sprache:	eng
Schlagworte:	Cloud computing Computational modeling Computer architecture Counterfeit Edge computing End users Fog computing mobility mobility environments mobility factors Nodes Provisioning Servers Vehicle dynamics Wireless communication
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creator	Waqas, Muhammad Niu, Yong Ahmed, Manzoor Li, Yong Jin, Depeng Han, Zhu
description	Fog computing is an epitome to enable provisioning resources and services beyond the cloud, at the edge of the network, and nearer to end devices. Fog computing is not a counterfeit for cloud computing but a persuasive counterpart. However, the mobility of end users and/or fog nodes brings a major dilemma in the implementation of real-life scenarios. Therefore, we deliver the state-of-the-art research about mobility in fog computing. By identifying the mobility problems, requirements, and features of different proposals, we discover the open problems from subsisting studies and summarize the advantages of mobility for readers. This will help the researchers and developers avoid the current misapprehensions and capture the real-life scenarios, such as business, government, and education institutions. In spite of the extensive state-of-the-art research work, we also present the diverse mobility factors to investigate the correlation between dynamic nodes with fog nodes in order to accomplish better successful tasks. We conceive that the investigations of mobility factors in the fog computing will furnish the novel perspective on not only dynamic connections but also network dynamics. To revolutionize the follow-up research, we distinguish and foreground futurity directions concerning real-life scenarios of people and vehicles in a dynamic fog environment.
doi_str_mv	10.1109/ACCESS.2018.2883662
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subjects	Cloud computing Computational modeling Computer architecture Counterfeit Edge computing End users Fog computing mobility mobility environments mobility factors Nodes Provisioning Servers Vehicle dynamics Wireless communication
title	Mobility-Aware Fog Computing in Dynamic Environments: Understandings and Implementation
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