The evolution of smartphones allows the continuous exploitation of computing resources. This increasingly applies also to distributed environments as exemplified through utilization of network router loads in edge computing and fog computing. Combining cloud computing and mobile smart devices in dew computing contexts enables new techniques for resource utilization, data collection and data processing. However, new challenges regarding job scheduling arise. Smartphones may be used in ad-hoc networks in this context, but their heterogeneity and energy usage must be considered. We propose novel heuristics for performance measuring of distributed computing systems integrated with mobile devices and compare them with previous heuristics in a si...
Every night, a large number of idle smartphones are plugged into a power source for recharging the b...
The Internet of Things provides a huge infrastructure where numerous devices produce, collect and pr...
Fog computing provides a distributed infrastructure at the edges of the network, resulting in low-la...
The evolution of smartphones allows the continuous exploitation of computing resources. This increas...
The computing resources of today’s smartphones are underutilized most of the time. Using these resou...
The computing resources of today’s smartphones are underutilized most of the time. Using these resou...
Mobile grid computing has been a popular topic for researchers due to mobile and IoT devices' ubiqui...
Given mobile devices ubiquity and capabilities, some researchers now consider them as resource provi...
Dew computing is an emerging computing paradigm, which aims at minimizing the dependency over existi...
This work establishes a set of methodologies to evaluate the performance of any task scheduling poli...
Resource allocation and task scheduling in the Cloud environment faces many challenges, such as time...
Smart, pervasive devices have recently experienced accelerated technological development in the fiel...
The amount of data produced at the edge of the network led to the introduction of the Fog Computing ...
Mobile devices have evolved from single purpose devices, such as mobile phone, into general purpose ...
Dew computing aims to minimize the dependency on remote clouds by exploiting nearby nodes for solvin...
Every night, a large number of idle smartphones are plugged into a power source for recharging the b...
The Internet of Things provides a huge infrastructure where numerous devices produce, collect and pr...
Fog computing provides a distributed infrastructure at the edges of the network, resulting in low-la...
The evolution of smartphones allows the continuous exploitation of computing resources. This increas...
The computing resources of today’s smartphones are underutilized most of the time. Using these resou...
The computing resources of today’s smartphones are underutilized most of the time. Using these resou...
Mobile grid computing has been a popular topic for researchers due to mobile and IoT devices' ubiqui...
Given mobile devices ubiquity and capabilities, some researchers now consider them as resource provi...
Dew computing is an emerging computing paradigm, which aims at minimizing the dependency over existi...
This work establishes a set of methodologies to evaluate the performance of any task scheduling poli...
Resource allocation and task scheduling in the Cloud environment faces many challenges, such as time...
Smart, pervasive devices have recently experienced accelerated technological development in the fiel...
The amount of data produced at the edge of the network led to the introduction of the Fog Computing ...
Mobile devices have evolved from single purpose devices, such as mobile phone, into general purpose ...
Dew computing aims to minimize the dependency on remote clouds by exploiting nearby nodes for solvin...
Every night, a large number of idle smartphones are plugged into a power source for recharging the b...
The Internet of Things provides a huge infrastructure where numerous devices produce, collect and pr...
Fog computing provides a distributed infrastructure at the edges of the network, resulting in low-la...