Cloud computing has a problem for communication-intensive applications, which need to meet the delay requirements. The problem becomes more intense with the huge application of the Internet of Things. Mobile Edge Computing processes data at the nearest available nodes and is emerging as a promising computation architecture to handle ever-increasing demands. In this special issue, we selected five papers from ChinaCom 2020 in their extended versions and public call for papers
The virtually unlimited available resources and wide range of services provided by the cloud have re...
AbstractMobile devices (smart phones, tablets, laptops, embedded boards, robots) can serve as ‘dumb’...
peer reviewedDriven by the emergence of new compute-intensive applications and the vision of the Int...
Cloud computing has a problem for communication-intensive applications, which need to meet the delay...
Handheld computing devices are now almost everywhere at the hands of technology dependent people of ...
The advent of Fifth Generation (5G) and the Internet of Things (IoT) is expected not only to make it...
none4siThe papers in this special section focus on smart edge computing and the Internet of Things (...
This Special Section on ‘`Cloud-Edge Computing for Cyber-Physical Systems and Internet-of...
University of Technology Sydney. Faculty of Engineering and Information Technology.With the rapid de...
Latency minimization is a pivotal aspect in provision of real time services while adhering to Qualit...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...
Recent advances in virtualization technologies (e.g., unikernels, containers, and virtual machines),...
Advancements in smart devices, wearable gadgets, sensors, and communication paradigm have enabled th...
Internet of Things (IoT) is one of the critical enablers of the Industrial Revolution 4.0. IoT can b...
Vehicular networks are expected to empower auto mated driving and intelligent transportation via veh...
The virtually unlimited available resources and wide range of services provided by the cloud have re...
AbstractMobile devices (smart phones, tablets, laptops, embedded boards, robots) can serve as ‘dumb’...
peer reviewedDriven by the emergence of new compute-intensive applications and the vision of the Int...
Cloud computing has a problem for communication-intensive applications, which need to meet the delay...
Handheld computing devices are now almost everywhere at the hands of technology dependent people of ...
The advent of Fifth Generation (5G) and the Internet of Things (IoT) is expected not only to make it...
none4siThe papers in this special section focus on smart edge computing and the Internet of Things (...
This Special Section on ‘`Cloud-Edge Computing for Cyber-Physical Systems and Internet-of...
University of Technology Sydney. Faculty of Engineering and Information Technology.With the rapid de...
Latency minimization is a pivotal aspect in provision of real time services while adhering to Qualit...
Mobile applications are becoming increasingly computational-intensive while many mobile devices sti...
Recent advances in virtualization technologies (e.g., unikernels, containers, and virtual machines),...
Advancements in smart devices, wearable gadgets, sensors, and communication paradigm have enabled th...
Internet of Things (IoT) is one of the critical enablers of the Industrial Revolution 4.0. IoT can b...
Vehicular networks are expected to empower auto mated driving and intelligent transportation via veh...
The virtually unlimited available resources and wide range of services provided by the cloud have re...
AbstractMobile devices (smart phones, tablets, laptops, embedded boards, robots) can serve as ‘dumb’...
peer reviewedDriven by the emergence of new compute-intensive applications and the vision of the Int...