Mobile edge computing is a new computing paradigm that can extend cloud computing capabilities to the edge network, supporting computation-intensive applications such as face recognition, natural language processing, and augmented reality. Notably, computation offloading is a key technology of mobile edge computing to improve mobile devices’ performance and users’ experience by offloading local tasks to edge servers. In this paper, the problem of computation offloading under multiuser, multiserver, and multichannel scenarios is researched, and a computation offloading framework is proposed that considering the quality of service (QoS) of users, server resources, and channel interference. This framework consists of three levels. (1) In the o...
Abstract To improve the quality of computation experience for mobile devices, mobile-edge computing...
On edge computing, mobile devices can offload some computing intensive tasks to the cloud so that th...
In this thesis, we analyze three-tier mobile offloading networks consisting of multiple mobile devic...
The appearance of Edge Computing with the possibility to bring powerful computation servers near the...
Considering the problem of users high processing delay and energy consumption in mobile edge computi...
Part 1: Graph ComputingInternational audienceMobile edge computing (MEC) is becoming a promising par...
In a mobile edge computing (MEC) network, mobile devices, also called edge clients, offload their co...
With the recent advancements in communication technologies, the realization of computation-intensive...
The foundation of urban computing and smart technology is edge computing. Edge computing provides a ...
The emergence of computationally intensive Artificial Intelligence technologies has been a major fac...
Mobile devices may use mobile edge computing to improve energy efficiency and responsiveness by offl...
To improve the quality of computation experience for mobile devices, mobile-edge computing (MEC) is ...
The rapid growth of mobile internet services has yielded a variety of computation-intensive applicat...
This is the author accepted manuscript. The final version is available from the publisher via the DO...
Mobile users typically have a series of complex tasks consisting of time-constrained workflows and c...
Abstract To improve the quality of computation experience for mobile devices, mobile-edge computing...
On edge computing, mobile devices can offload some computing intensive tasks to the cloud so that th...
In this thesis, we analyze three-tier mobile offloading networks consisting of multiple mobile devic...
The appearance of Edge Computing with the possibility to bring powerful computation servers near the...
Considering the problem of users high processing delay and energy consumption in mobile edge computi...
Part 1: Graph ComputingInternational audienceMobile edge computing (MEC) is becoming a promising par...
In a mobile edge computing (MEC) network, mobile devices, also called edge clients, offload their co...
With the recent advancements in communication technologies, the realization of computation-intensive...
The foundation of urban computing and smart technology is edge computing. Edge computing provides a ...
The emergence of computationally intensive Artificial Intelligence technologies has been a major fac...
Mobile devices may use mobile edge computing to improve energy efficiency and responsiveness by offl...
To improve the quality of computation experience for mobile devices, mobile-edge computing (MEC) is ...
The rapid growth of mobile internet services has yielded a variety of computation-intensive applicat...
This is the author accepted manuscript. The final version is available from the publisher via the DO...
Mobile users typically have a series of complex tasks consisting of time-constrained workflows and c...
Abstract To improve the quality of computation experience for mobile devices, mobile-edge computing...
On edge computing, mobile devices can offload some computing intensive tasks to the cloud so that th...
In this thesis, we analyze three-tier mobile offloading networks consisting of multiple mobile devic...