In this letter, we consider a multi-user wireless powered mobile edge computing (MEC) system, in which a base station (BS) integrated with an MEC server transfers energy to wireless devices (WDs) as an incentive to encourage them to offload computing tasks to the MEC server. We formulate an optimization problem to contemporaneously maximize the data utility and minimize the energy consumption of the operator under the offloaded delay constraint, by jointly controlling wireless-power allocation at the BS as well as offloaded data size and power allocation at the WDs. To solve this problem, the offloaded delay constraint is first transformed into an offloaded data rate constraint. Then an iterative algorithm is designed to obtain the optimal ...
Abstract To overcome devices’ limitations in performing computation-intense applications, mobile ed...
We propose a novel strategy for energy-efficient dynamic computation offloading, in the context of e...
In this paper, we consider a simultaneous wireless information and power transfer (SWIPT)-based mobi...
In this letter, we consider a multi-user wireless powered mobile edge computing (MEC) system, in whi...
Mobile edge computing (MEC) is envisioned as a promising technology for enhancing the computation ca...
To improve the computational power and limited battery capacity of mobile devices (MDs), wireless po...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
International audienceRecently Mobile Edge Computing (MEC) promises a great latency reduction by pus...
Mobile edge computing (MEC) is considered a promising technique that prolongs battery life and enhan...
© 2018 IEEE. We propose a novel edge computing network architecture that enables edge nodes to coope...
With the fifth-generation (5G) networks, Mobile edge computing (MEC) is a promising paradigm to prov...
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...
Offloading computationally intensive tasks from user equipments (UEs) to mobile edge computing (MEC)...
This paper studies a mobile edge computing (MEC) system in which two mobile devices are energized by...
Abstract To overcome devices’ limitations in performing computation-intense applications, mobile ed...
We propose a novel strategy for energy-efficient dynamic computation offloading, in the context of e...
In this paper, we consider a simultaneous wireless information and power transfer (SWIPT)-based mobi...
In this letter, we consider a multi-user wireless powered mobile edge computing (MEC) system, in whi...
Mobile edge computing (MEC) is envisioned as a promising technology for enhancing the computation ca...
To improve the computational power and limited battery capacity of mobile devices (MDs), wireless po...
Resource allocation algorithms are conceived for minimizing the energy consumption of multiuser mobi...
International audienceRecently Mobile Edge Computing (MEC) promises a great latency reduction by pus...
Mobile edge computing (MEC) is considered a promising technique that prolongs battery life and enhan...
© 2018 IEEE. We propose a novel edge computing network architecture that enables edge nodes to coope...
With the fifth-generation (5G) networks, Mobile edge computing (MEC) is a promising paradigm to prov...
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...
Offloading computationally intensive tasks from user equipments (UEs) to mobile edge computing (MEC)...
This paper studies a mobile edge computing (MEC) system in which two mobile devices are energized by...
Abstract To overcome devices’ limitations in performing computation-intense applications, mobile ed...
We propose a novel strategy for energy-efficient dynamic computation offloading, in the context of e...
In this paper, we consider a simultaneous wireless information and power transfer (SWIPT)-based mobi...