Mobile Edge Computing (MEC) has evolved into a promising technology that can relieve computing pressure on wireless devices (WDs) in the Internet of Things (IoT) by offloading computation tasks to the MEC server. Resource management and allocation are challenging because of the unpredictability of task arrival, wireless channel status and energy consumption. To address such a challenge, in this paper, we provide an energy-efficient joint resource management and allocation (ECM-RMA) policy to reduce time-averaged energy consumption in a multi-user multi-task MEC system with hybrid energy harvested WDs. We first formulate the time-averaged energy consumption minimization problem while the MEC system satisfied both the data queue stability con...
© 2018 IEEE. We propose a novel edge computing network architecture that enables edge nodes to coope...
Mobile applications are progressively becoming more sophisticated and complex, in creasing their com...
To improve the computational power and limited battery capacity of mobile devices (MDs), wireless po...
The wireless networks beyond the fifth generation (5G) are envisioned to be the platform that will s...
Offloading computationally intensive tasks from user equipments (UEs) to mobile edge computing (MEC)...
This paper addresses the issue of efficient resource allocation in a Mobile Edge Computing (MEC) sys...
Mobile edge computing (MEC) is considered a promising technique that prolongs battery life and enhan...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
The integration of simultaneous wireless information and power transfer (SWIPT) and mobile-edge comp...
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) utilizes wireless access network to provide powerful computing resources...
Considering the problem of users high processing delay and energy consumption in mobile edge computi...
Recently, in order to extend the computation capability of smart mobile devices (SMDs) and reduce th...
With the fifth-generation (5G) networks, Mobile edge computing (MEC) is a promising paradigm to prov...
© 2018 IEEE. We propose a novel edge computing network architecture that enables edge nodes to coope...
Mobile applications are progressively becoming more sophisticated and complex, in creasing their com...
To improve the computational power and limited battery capacity of mobile devices (MDs), wireless po...
The wireless networks beyond the fifth generation (5G) are envisioned to be the platform that will s...
Offloading computationally intensive tasks from user equipments (UEs) to mobile edge computing (MEC)...
This paper addresses the issue of efficient resource allocation in a Mobile Edge Computing (MEC) sys...
Mobile edge computing (MEC) is considered a promising technique that prolongs battery life and enhan...
This article describes a processing time, energy and computing resources optimization in a Mobile Ed...
The integration of simultaneous wireless information and power transfer (SWIPT) and mobile-edge comp...
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) utilizes wireless access network to provide powerful computing resources...
Considering the problem of users high processing delay and energy consumption in mobile edge computi...
Recently, in order to extend the computation capability of smart mobile devices (SMDs) and reduce th...
With the fifth-generation (5G) networks, Mobile edge computing (MEC) is a promising paradigm to prov...
© 2018 IEEE. We propose a novel edge computing network architecture that enables edge nodes to coope...
Mobile applications are progressively becoming more sophisticated and complex, in creasing their com...
To improve the computational power and limited battery capacity of mobile devices (MDs), wireless po...