10th IEEE International Conference on Cloud Computing, CLOUD 2017, Honolulu, Hawaii, USA, 25-30 June 2017The proliferation of mobile devices and ubiquitous access of the wireless network enables many new mobile applications such as augmented reality, mobile gaming and so on. As the applications are latency sensitive, researchers propose to offload the complex computations of these applications to the nearby mobile edge cloud, in order to reduce the latency. Existing works mostly consider the problem of partitioning the computations between the mobile device and the traditional cloud that has abundant resources. The proposed approaches can not be applied in the context of mobile edge cloud, because both the resources in the mobile edge cloud...
We consider the problem of mobile computation offloading to both an edge cloud and to peer devices, ...
With the increasing number of mobile devices (MD), IoT devices, and computation-intensive tasks depl...
Computation-intensive mobile applications are explosively increasing and cause computation overload ...
202209_bcwwAccepted ManuscriptRGCOthersNational Natural Science Foundation of China; Science and Tec...
The emergence of computationally intensive Artificial Intelligence technologies has been a major fac...
Recent advances in Internet technologies have led to the proliferation of new distributed applicatio...
The recent emergence of a broad class of deep learning based augmented and virtual reality applicati...
Abstract Multi-access Edge Computing (MEC) is recognised as a solution in future networks to offloa...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
Multi-access Edge Computing (MEC) is recognised as a solution in future networks to offload computat...
Elastic partitioning of computations between mobile devices and cloud is an important and challengin...
The recent emergence of a broad class of deep learning based augmented and virtual reality applicati...
Mobile edge cloud has been proposed to accommodate computational intensive application on mobile dev...
International audienceRecently Mobile Edge Computing (MEC) promises a great latency reduction by pus...
Mobile cloud computing helps to overcome the challenges of mobile computing by allowing mobile devic...
We consider the problem of mobile computation offloading to both an edge cloud and to peer devices, ...
With the increasing number of mobile devices (MD), IoT devices, and computation-intensive tasks depl...
Computation-intensive mobile applications are explosively increasing and cause computation overload ...
202209_bcwwAccepted ManuscriptRGCOthersNational Natural Science Foundation of China; Science and Tec...
The emergence of computationally intensive Artificial Intelligence technologies has been a major fac...
Recent advances in Internet technologies have led to the proliferation of new distributed applicatio...
The recent emergence of a broad class of deep learning based augmented and virtual reality applicati...
Abstract Multi-access Edge Computing (MEC) is recognised as a solution in future networks to offloa...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
Multi-access Edge Computing (MEC) is recognised as a solution in future networks to offload computat...
Elastic partitioning of computations between mobile devices and cloud is an important and challengin...
The recent emergence of a broad class of deep learning based augmented and virtual reality applicati...
Mobile edge cloud has been proposed to accommodate computational intensive application on mobile dev...
International audienceRecently Mobile Edge Computing (MEC) promises a great latency reduction by pus...
Mobile cloud computing helps to overcome the challenges of mobile computing by allowing mobile devic...
We consider the problem of mobile computation offloading to both an edge cloud and to peer devices, ...
With the increasing number of mobile devices (MD), IoT devices, and computation-intensive tasks depl...
Computation-intensive mobile applications are explosively increasing and cause computation overload ...