We propose the TelcoFog architecture as a novel, secure, highly distributed, and ultra-dense fog computing infrastructure, which can be allocated at the extreme edge of a wired/wireless network for a telecom operator to provide multiple unified, cost-effective, and new 5G services, such as NFV, MEC, and services for third parties (e.g., smart cities, vertical industries, and IoT). The distributed and programmable fog technologies that are proposed in TelcoFog are expected to strengthen the position of the mobile network and cloud markets. TelcoFog, by design, is capable of integrating an ecosystem for network operators willing to provide NFV, MEC, and IoT services. TelcoFog's key benefits are the dynamic deployment of new distributed low-la...
The fifth generation (5G) of mobile networks is designed to mark the beginning of the hyper-connecte...
Fog computing aims at providing horizontal, system-level, abstractions to distribute computing, stor...
Put together, the edge and fog form a large diverse pool of computing and networking resources from ...
We propose the TelcoFog architecture as a novel, secure, highly distributed, and ultra-dense fog com...
We propose the TelcoFog architecture as a novel, secure, highly distributed and ultra-dense fog comp...
We review a novel, secure, highly distributed and ultra-dense fog computing infrastructure, which ca...
The interplay between cloud and fog computing is crucial for the evolution of IoT, but the reach and...
Fog computing extends the cloud computing paradigm by placing resources close to the edges of the ne...
Nowadays, 5G networks are emerged and designed to integrate all the achievements of mobile and fixed...
Fog computing extends the cloud computing paradigm by placing resources close to the edges of the ne...
5G will enable new future Internet of Services (IoSs) paradigms such as\ud Anything as a Service (Aa...
The Internet of Things (IoT) ecosystem, as fostered by fifth generation (5G) applications, demands a...
This book focuses on the challenges and solutions related to cloud and fog computing for 5G mobile n...
Fog Computing is a new computation paradigm, recently emerged from the convergence of IoT, WSN, mobi...
The fifth generation (5G) of mobile networks is designed to mark the beginning of the hyper-connecte...
The fifth generation (5G) of mobile networks is designed to mark the beginning of the hyper-connecte...
Fog computing aims at providing horizontal, system-level, abstractions to distribute computing, stor...
Put together, the edge and fog form a large diverse pool of computing and networking resources from ...
We propose the TelcoFog architecture as a novel, secure, highly distributed, and ultra-dense fog com...
We propose the TelcoFog architecture as a novel, secure, highly distributed and ultra-dense fog comp...
We review a novel, secure, highly distributed and ultra-dense fog computing infrastructure, which ca...
The interplay between cloud and fog computing is crucial for the evolution of IoT, but the reach and...
Fog computing extends the cloud computing paradigm by placing resources close to the edges of the ne...
Nowadays, 5G networks are emerged and designed to integrate all the achievements of mobile and fixed...
Fog computing extends the cloud computing paradigm by placing resources close to the edges of the ne...
5G will enable new future Internet of Services (IoSs) paradigms such as\ud Anything as a Service (Aa...
The Internet of Things (IoT) ecosystem, as fostered by fifth generation (5G) applications, demands a...
This book focuses on the challenges and solutions related to cloud and fog computing for 5G mobile n...
Fog Computing is a new computation paradigm, recently emerged from the convergence of IoT, WSN, mobi...
The fifth generation (5G) of mobile networks is designed to mark the beginning of the hyper-connecte...
The fifth generation (5G) of mobile networks is designed to mark the beginning of the hyper-connecte...
Fog computing aims at providing horizontal, system-level, abstractions to distribute computing, stor...
Put together, the edge and fog form a large diverse pool of computing and networking resources from ...