This paper deals with processing delay on edge devices (routers) in Radio Access Network (RAN) in the cellular systems with respect to the used operating system. Operating systems that allow virtualization and are designed for use in access networks are considered and compared i.e., Cisco IOS XE and the VyOS. Following the obtained simulation results from the GNS3 simulation tool, the right selection of the OS enables to achieve decreased processing delay in the given topology and communication scenario. Further, the findings obtained from the simulation scenarios indicate the need for more advanced simulations as the next-generation mobile networks i.e., Beyond 5G (B5G) are expected to handle data traffic with more demanding requirements o...
In this paper we propose new design framework for network architecture of future 5G mobile networks,...
Networks beyond 2020 will experience 10000-fold increase in wireless traffic, connect 10-100 times m...
Fifth-generation (5G) cellular mobile networks are expected to support mission-critical low latency ...
This paper deals with processing delay on edge devices (routers) in Radio Access Network (RAN) in th...
The fifth generation (5G) of mobile communication system aims to deliver a ubiquitous mobile service...
The upcoming 5th Generation (5G) mobile networks will be different from the previous mobile network ...
The explosive growth of smartphones and other portable devices, along with new traffic types generat...
International audienceThe explosive growth of smartphones and other portable devices, along with new...
The evolution towards 5G networks is expected to slake the growing thirst of internet traffic with i...
International audienceEvery second, a large amount of digital data is transported through infinite t...
5G, the next generation of mobile network, is expected to be launched commercially around 2020. Comp...
The fifth generation (5G) of mobile networks is seen as a key enabler to support the introduction of...
The fifth generation of mobile networks, i.e., 5G, has been envisioned to revolutionize mobile comm...
Ensuring enough network resources for all emerging 5G mobile services, with the advent of 5G will be...
With the increase in the number of user devices and applications, the 5G systems (5GS) user plane is...
In this paper we propose new design framework for network architecture of future 5G mobile networks,...
Networks beyond 2020 will experience 10000-fold increase in wireless traffic, connect 10-100 times m...
Fifth-generation (5G) cellular mobile networks are expected to support mission-critical low latency ...
This paper deals with processing delay on edge devices (routers) in Radio Access Network (RAN) in th...
The fifth generation (5G) of mobile communication system aims to deliver a ubiquitous mobile service...
The upcoming 5th Generation (5G) mobile networks will be different from the previous mobile network ...
The explosive growth of smartphones and other portable devices, along with new traffic types generat...
International audienceThe explosive growth of smartphones and other portable devices, along with new...
The evolution towards 5G networks is expected to slake the growing thirst of internet traffic with i...
International audienceEvery second, a large amount of digital data is transported through infinite t...
5G, the next generation of mobile network, is expected to be launched commercially around 2020. Comp...
The fifth generation (5G) of mobile networks is seen as a key enabler to support the introduction of...
The fifth generation of mobile networks, i.e., 5G, has been envisioned to revolutionize mobile comm...
Ensuring enough network resources for all emerging 5G mobile services, with the advent of 5G will be...
With the increase in the number of user devices and applications, the 5G systems (5GS) user plane is...
In this paper we propose new design framework for network architecture of future 5G mobile networks,...
Networks beyond 2020 will experience 10000-fold increase in wireless traffic, connect 10-100 times m...
Fifth-generation (5G) cellular mobile networks are expected to support mission-critical low latency ...