Leveraging video caching to collaborative Mobile Edge Computing (MEC) servers is an emerging paradigm, where cloud computing services are extended to edge networks to allocate multimedia contents close to end-users. However, despite minimizing the traffic over the content delivery networks (CDN), congestions may occur in peak hours characterized by high load demands. Involving users' devices in data offloading through Device-to-Device (D2D) connections has proved its efficiency in relieving the cellular spectrum utilization. In this paper, the Collaborative Edge network (CE) and the devices (D2D) cluster are combined to form a CE-D2D framework aiming at maximizing video caching and efficiently using cellular and backhaul bandwidths. However...
In order to meet the growing demands for multimedia service access and release the pressure of the c...
Multimedia content delivery via the cellular infrastructure increases fast due to the very high volu...
Content caching has been considered by both academia and industry as an efficient solution to tackle...
To support multimedia applications, Mobile Edge Computing (MEC) servers offer storage and computing ...
Mobile Edge Computing (MEC) networks have been proposed to extend the cloud services and bring the c...
Online video is anticipated to be the largest fraction of all mobile network traffic aside from the ...
Video streaming has become a leading consumer of network resources in the last decade. Despite consi...
The contribution of video content in mobile data traffic is predicted to increase over the coming ye...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Multi-access edge computing (MEC) enables placing video content at the edge of a mobile network with...
Mobile users’ demands to delay-sensitive video streaming media put forward new requirements for mobi...
Abstract—The surge in video traffic and shift toward on-demand content consumption is straining mobi...
The video traffic offloading in edge networks is an effective method for remission of congestion of ...
International audienceThe surge in video traffic and shift toward on-demand content consumption is s...
The fifth generation wireless networks must provide fast and reliable connectivity while coping with...
In order to meet the growing demands for multimedia service access and release the pressure of the c...
Multimedia content delivery via the cellular infrastructure increases fast due to the very high volu...
Content caching has been considered by both academia and industry as an efficient solution to tackle...
To support multimedia applications, Mobile Edge Computing (MEC) servers offer storage and computing ...
Mobile Edge Computing (MEC) networks have been proposed to extend the cloud services and bring the c...
Online video is anticipated to be the largest fraction of all mobile network traffic aside from the ...
Video streaming has become a leading consumer of network resources in the last decade. Despite consi...
The contribution of video content in mobile data traffic is predicted to increase over the coming ye...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
Multi-access edge computing (MEC) enables placing video content at the edge of a mobile network with...
Mobile users’ demands to delay-sensitive video streaming media put forward new requirements for mobi...
Abstract—The surge in video traffic and shift toward on-demand content consumption is straining mobi...
The video traffic offloading in edge networks is an effective method for remission of congestion of ...
International audienceThe surge in video traffic and shift toward on-demand content consumption is s...
The fifth generation wireless networks must provide fast and reliable connectivity while coping with...
In order to meet the growing demands for multimedia service access and release the pressure of the c...
Multimedia content delivery via the cellular infrastructure increases fast due to the very high volu...
Content caching has been considered by both academia and industry as an efficient solution to tackle...