Offloading computationally intensive tasks from user equipments (UEs) to mobile edge computing (MEC) servers is a promising technique to boost up the computational capacity of UEs. However, MEC will incur extra energy consumption and time delays, which motivates the deployment of energy harvesting (EH) small cell networks with MEC in mobile networks. Due to the complexity of such networks, it is challenging to effectively allocate resources for UEs. In this paper, we investigate the offloading decision, wireless and computational resources allocation problem in energy harvesting (EH) small cell networks with MEC. Different from existing literatures, our research focuses on improving mobile operators' revenue by maximizing the amount of the ...
In this paper, we consider a simultaneous wireless information and power transfer (SWIPT)-based mobi...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
In this letter, we consider a multi-user wireless powered mobile edge computing (MEC) system, in whi...
International audienceRecently Mobile Edge Computing (MEC) promises a great latency reduction by pus...
International audienceThis paper studies the joint optimization of resource scheduling and computati...
Mobile applications are progressively becoming more sophisticated and complex, in creasing their com...
With the fifth-generation (5G) networks, Mobile edge computing (MEC) is a promising paradigm to prov...
Mobile Edge Computing (MEC) has evolved into a promising technology that can relieve computing press...
Considering the problem of users high processing delay and energy consumption in mobile edge computi...
The rapid development of mobile information industry has led to the emergence of various mobile appl...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
Mobile edge computing (MEC) is considered a promising technique that prolongs battery life and enhan...
This paper addresses the issue of efficient resource allocation in a Mobile Edge Computing (MEC) sys...
Mobile edge computing (MEC) utilizes wireless access network to provide powerful computing resources...
The wireless networks beyond the fifth generation (5G) are envisioned to be the platform that will s...
In this paper, we consider a simultaneous wireless information and power transfer (SWIPT)-based mobi...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
In this letter, we consider a multi-user wireless powered mobile edge computing (MEC) system, in whi...
International audienceRecently Mobile Edge Computing (MEC) promises a great latency reduction by pus...
International audienceThis paper studies the joint optimization of resource scheduling and computati...
Mobile applications are progressively becoming more sophisticated and complex, in creasing their com...
With the fifth-generation (5G) networks, Mobile edge computing (MEC) is a promising paradigm to prov...
Mobile Edge Computing (MEC) has evolved into a promising technology that can relieve computing press...
Considering the problem of users high processing delay and energy consumption in mobile edge computi...
The rapid development of mobile information industry has led to the emergence of various mobile appl...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
Mobile edge computing (MEC) is considered a promising technique that prolongs battery life and enhan...
This paper addresses the issue of efficient resource allocation in a Mobile Edge Computing (MEC) sys...
Mobile edge computing (MEC) utilizes wireless access network to provide powerful computing resources...
The wireless networks beyond the fifth generation (5G) are envisioned to be the platform that will s...
In this paper, we consider a simultaneous wireless information and power transfer (SWIPT)-based mobi...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
In this letter, we consider a multi-user wireless powered mobile edge computing (MEC) system, in whi...