The contribution of video content in mobile data traffic is predicted to increase over the coming years. If the network is not managed efficiently, this huge amount of data will increase the congestion in the cellular network. Caching at the edge of the cellular network is one of the prominent solutions to mitigate this issue. By deploying Mobile Edge Computing (MEC) at eNodeB (eNB), distributed edge caching can be realized in the cellular network. In this work, we propose a consolidated caching scheme with cache splitting and trans-rating in MEC network. Cache consolidation uses the collaborative capability of MEC servers to avoid replication of videos in the MEC cache network thus increasing the caching capacity. Without replication, acce...
Cache enhanced computation offloading as a novel offloading paradigm in mobile edge computing (MEC) ...
It is challenging to stream 360° videos over the mobile network for its stringent latency and high b...
Mobile Edge Caching (MEC) can be exploited for reducing redundant data transmissions and improving c...
To support multimedia applications, Mobile Edge Computing (MEC) servers offer storage and computing ...
Mobile users’ demands to delay-sensitive video streaming media put forward new requirements for mobi...
Video streaming has become a leading consumer of network resources in the last decade. Despite consi...
Online video is anticipated to be the largest fraction of all mobile network traffic aside from the ...
Leveraging video caching to collaborative Mobile Edge Computing (MEC) servers is an emerging paradig...
Mobile Edge Computing (MEC) networks have been proposed to extend the cloud services and bring the c...
By pre-fetching popular videos into the local caches of edge nodes, wireless edge caching provides a...
Multimedia content delivery through the cellular infrastructure increases fast due to the enormous v...
Multimedia content delivery via the cellular infrastructure increases fast due to the very high volu...
Multi-access edge computing has been proposed as a promising approach to localize the access of mobi...
The explosive demand of online video watching brings huge bandwidth pressure to cellular networks. E...
The amount of content downloaded to mobile devices, mainly driven by the demand for video content, t...
Cache enhanced computation offloading as a novel offloading paradigm in mobile edge computing (MEC) ...
It is challenging to stream 360° videos over the mobile network for its stringent latency and high b...
Mobile Edge Caching (MEC) can be exploited for reducing redundant data transmissions and improving c...
To support multimedia applications, Mobile Edge Computing (MEC) servers offer storage and computing ...
Mobile users’ demands to delay-sensitive video streaming media put forward new requirements for mobi...
Video streaming has become a leading consumer of network resources in the last decade. Despite consi...
Online video is anticipated to be the largest fraction of all mobile network traffic aside from the ...
Leveraging video caching to collaborative Mobile Edge Computing (MEC) servers is an emerging paradig...
Mobile Edge Computing (MEC) networks have been proposed to extend the cloud services and bring the c...
By pre-fetching popular videos into the local caches of edge nodes, wireless edge caching provides a...
Multimedia content delivery through the cellular infrastructure increases fast due to the enormous v...
Multimedia content delivery via the cellular infrastructure increases fast due to the very high volu...
Multi-access edge computing has been proposed as a promising approach to localize the access of mobi...
The explosive demand of online video watching brings huge bandwidth pressure to cellular networks. E...
The amount of content downloaded to mobile devices, mainly driven by the demand for video content, t...
Cache enhanced computation offloading as a novel offloading paradigm in mobile edge computing (MEC) ...
It is challenging to stream 360° videos over the mobile network for its stringent latency and high b...
Mobile Edge Caching (MEC) can be exploited for reducing redundant data transmissions and improving c...