Virtually all of the rapidly increasing data traffic consumed by mobile users requires some kind of processing, normally performed at cloud servers. A recent thrust, mobile edge computing, moves such processing to servers within the cellular mobile network. The large temporal and spatial variations to which mobile data usage is subject could make the reduced latency that edge clouds offer come at an unacceptable cost in redundant and underutilized infrastructure. We present some first empirical results on this question, based on large scale sampled crowd-sourced traces from several major cities spanning multiple operators and identifying the applications in use. We find opportunities to obtain both high server utilization and low applicatio...
This thesis presents the architecture, design, and evaluation of the mobile edge cloud (MEC) system ...
All the content consumed by mobile users, be it a web page or a live stream, undergoes some process...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...
Virtually all of the rapidly increasing data traffic consumed by mobile users requires some kind of ...
AbstractThis paper presents a novel large scale data management model for future smart cities. The s...
Mobile Edge Clouds (MECs) are platforms that complement today's centralized clouds by distributing c...
Multi-access Edge Computing (MEC) brings storage and computational capabilities at the edge of the n...
International audienceIn mobile environments, with the help of larger bandwidths and cloud computing...
International audienceMobile devices have always been left out of the network infrastructure due to ...
Mobile edge computing (MEC) is an emergent architecture where cloud computing services are extended ...
Mobile cloud computing (MCC) integrates cloud computing (CC) into mobile networks, prolonging the ba...
Mobile edge computing (MEC) is an emerging technology that aims at pushing applications and content ...
Mobile Edge Computing (MEC) is vital to support the numerous, future applications that are envisione...
Edge computing has gained attention from both academia and industry by pursuing two significant chal...
Over the last decade, cloud computing has realized the long-held dream of computing as a utility, in...
This thesis presents the architecture, design, and evaluation of the mobile edge cloud (MEC) system ...
All the content consumed by mobile users, be it a web page or a live stream, undergoes some process...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...
Virtually all of the rapidly increasing data traffic consumed by mobile users requires some kind of ...
AbstractThis paper presents a novel large scale data management model for future smart cities. The s...
Mobile Edge Clouds (MECs) are platforms that complement today's centralized clouds by distributing c...
Multi-access Edge Computing (MEC) brings storage and computational capabilities at the edge of the n...
International audienceIn mobile environments, with the help of larger bandwidths and cloud computing...
International audienceMobile devices have always been left out of the network infrastructure due to ...
Mobile edge computing (MEC) is an emergent architecture where cloud computing services are extended ...
Mobile cloud computing (MCC) integrates cloud computing (CC) into mobile networks, prolonging the ba...
Mobile edge computing (MEC) is an emerging technology that aims at pushing applications and content ...
Mobile Edge Computing (MEC) is vital to support the numerous, future applications that are envisione...
Edge computing has gained attention from both academia and industry by pursuing two significant chal...
Over the last decade, cloud computing has realized the long-held dream of computing as a utility, in...
This thesis presents the architecture, design, and evaluation of the mobile edge cloud (MEC) system ...
All the content consumed by mobile users, be it a web page or a live stream, undergoes some process...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...