Conventional Internet of Things (IoT) applications involve data capture from various sensors in environments, and the captured data then is processed in remote clouds. However, some critical IoT applications (e.g. autonomous vehicles) require a much lower response latency and more secure guarantees than those offered by remote clouds today. Mobile edge clouds (MEC) supported by the network function virtualization (NFV) technique have been envisioned as an ideal platform for supporting such IoT applications. Specifically, MECs enable to handle IoT applications in edge networks to shorten network latency, and NFV enables agile and low-cost network functions to run in low-cost commodity servers as Virtual Machines (VMs). One fundamental proble...
Deploying Internet of Things (IoT)-enabled virtual network function (VNF) chains to Cloud-Edge infra...
Ongoing research and industrial exploitation of SDN and NFV technologies promise higher flexibility ...
There is a substantial growth in the usage of mobile devices. These devices, including smartphones, ...
Conventional Internet of Things (IoT) applications involve data capture from various sensors in envi...
Mobile edge computing and network function virtualization (NFV) paradigms enable new flexibility and...
Network Function Virtualization (NFV) has revolutionized the way network services are offered to end...
We are embracing an era of Internet of Things (IoTs). However, the latency brought by unstable wirel...
Network Function Virtualization (NFV) has revolutionized the way network services are offered to end...
Mobile edge computing (MEC) literally pushes cloud computing from remote datacenters to the life rad...
For embracing the ubiquitous Internet-of-Things (IoT) devices, edge computing and Network Function V...
Stringent delay requirements of many mobile applications have led to the development of mobile edge ...
Emerging mobile multimedia applications, such as augmented reality, have stringent latency requireme...
The Edge computing extension of the Cloud services towards the network boundaries raises important p...
Driven by stringent delay requirements of mobile applications, the mobile edge cloud has emerged as ...
The various applications of the Internet of Things and the Internet of Vehicles impose high requirem...
Deploying Internet of Things (IoT)-enabled virtual network function (VNF) chains to Cloud-Edge infra...
Ongoing research and industrial exploitation of SDN and NFV technologies promise higher flexibility ...
There is a substantial growth in the usage of mobile devices. These devices, including smartphones, ...
Conventional Internet of Things (IoT) applications involve data capture from various sensors in envi...
Mobile edge computing and network function virtualization (NFV) paradigms enable new flexibility and...
Network Function Virtualization (NFV) has revolutionized the way network services are offered to end...
We are embracing an era of Internet of Things (IoTs). However, the latency brought by unstable wirel...
Network Function Virtualization (NFV) has revolutionized the way network services are offered to end...
Mobile edge computing (MEC) literally pushes cloud computing from remote datacenters to the life rad...
For embracing the ubiquitous Internet-of-Things (IoT) devices, edge computing and Network Function V...
Stringent delay requirements of many mobile applications have led to the development of mobile edge ...
Emerging mobile multimedia applications, such as augmented reality, have stringent latency requireme...
The Edge computing extension of the Cloud services towards the network boundaries raises important p...
Driven by stringent delay requirements of mobile applications, the mobile edge cloud has emerged as ...
The various applications of the Internet of Things and the Internet of Vehicles impose high requirem...
Deploying Internet of Things (IoT)-enabled virtual network function (VNF) chains to Cloud-Edge infra...
Ongoing research and industrial exploitation of SDN and NFV technologies promise higher flexibility ...
There is a substantial growth in the usage of mobile devices. These devices, including smartphones, ...