Network Slicing Principle for 5G Communication

In this post, we explain the network slicing principle by unveiling an unique network slicing architecture for integrated 5G communications. Wireless sensing unit networks consist of small nodes with picking up, calculation, and wireless communications abilities.

Image result for wireless communication

Image result for wireless communication

5G requires a redesign of transportation networks in order to feed the progressively bandwidth starving radio access networks and to benefit from the performance/cost efficiency supplied by the integration of both back haul and front haul segments over the exact same transport substrate as well as the incorporation of cloud RAN architectures. As the spectral efficiency of a point-to-point link in cellular networks approaches its theoretical limits, with the anticipated explosion of data traffic, there is a need for a boost in the node density to more improve network capacity.

As a result it is forecasted that smart gadgets and networks, such as WSNs, will not be separated, but linked and integrated, composing computer networks. In this article, we describe the network slicing concept by revealing an unique network slicing architecture for integrated 5G communications.

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Wireless sensing unit networks consist of small nodes with sensing, computation, and wireless interactions abilities. 5G needs a redesign of transport networks in order to feed the significantly bandwidth hungry radio access networks and to benefit from the performance/cost efficiency supplied by the combination of both back haul and front haul sections over the same transportation substrate as well as the incorporation of cloud RAN architectures.

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