Practical nfv and software defined netwroking for mobile

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Practical nfv and software defined netwroking for mobile networks:

Practical nfv and software defined netwroking for mobile networks

NFV and SDN Product Design :

NFV and SDN Product Design I am building an optimal network topology for efficient network resources on an NFV SDN plane where the aim is the efficient usage of the network resources from a complexity analysis point of view I propose a practical application and methodology in the NFV architecture for open flow technology on the routing and an NFV architecture with the Full calculating algorithm and the partial calculating algorithm i use the Dijkstra algorithm an hybrid algorithm based on the complexity analysis

NFV and SDN Product Solution:

NFV and SDN Product Solution I am the author of Practical NFV and SDN for mobile networks the only practical book worldwide on NFV and SDN A hybrid algorithm that i propose is situation where i use the Dijkstra algorithm and infuse the concept of the Kruskal algorithm for the network analysis based on the minimal individual shortest packet flow between the source router and the destination router, this proposed algorithm of mine will definitely yield a lesser network cost than the Dijkstra algorithm

NFV AND SDN innovation:

NFV AND SDN innovation I propose an overall Optimal Hybrid devolved architecture where the network with a controller and the flow rules handled by the switches with an optimal algorithm implemented on the router traffic flow in the switches and also an optimization on the overall network control based on feasible optimal information feedback from the network control information to the implemented rules in the router traffic flow , therefore this hybrid architecture i propose is better than a distributed one

Technology Uniqueness:

Technology Uniqueness The technology is unique as it involves a practical implementation of programmability algorithm implementation and flexibility design in the osftware defined networking and NFV architecture which is definitely better than the traditional Network function virtualization and Software defined networking architectures

The NFV and SDN solution methodology :

The NFV and SDN solution methodology a Optimal NFV SDN CPU Resource analysis I write on an optimal network topology for efficient network resources on an NFV SDN plane where the aim is the efficient usage of the network resources from a complexity analysis point of view In a network that has a network function virtualization with a set of open routers with a set of routing and forwarding information, the right implementation algorithm is essential for the efficient analysis of the resources, based on complexity analysis i can use a partial calculating algorithm or a full calculating algorithm or i can use an hybrid algorithm based on the full calculating algorithm and the partial calculating algorithm with the goal of efficient network resources analysis.. this is based on knowing the router path algorithm and routing updating algorithm for routing table changes in an NFV architecture with a set of mi open routers and an average path length of n=2 to the destination of the packet traffic A traditional network has a complexity of O(n m^2), the complexity for such architecture isO (n/2mi)

The NFV and SDN solution methodology:

The NFV and SDN solution methodology b Practical Algorithm and Flow table Implementation for Routing and Filtering in an NFV SDN architecture I propose a practical application and methodology in the NFV architecture for open flow technology on the routing and an NFV architecture with the Full calculating algorithm and the partial calculating algorithm i use the Dijkstra algorithm and and an hybrid algorithm based on the complexity analysis I clearly indicate that the Dijkstra algorithm yields a better resources analysis than an experimental test bed network scenario due to the manual configuration of the routers that accounts for a bigger flow table A hybrid algorithm that i propose is situation where i use the Dijkstra algorithm and infuse the concept of the Kruskal algorithm for the network analysis based on the minimal individual shortest packet flow between the source router and the destination router,

The NFV and SDN solution methodology:

The NFV and SDN solution methodology c  i propose an overall Optimal Hybrid devolved architecture where the network with a controller and the fol rules handled by the switches with an optimal algorithm implemented on the router traffic flow in the switches and also an optimization on the overall network control based on feasible optimal information feedback from the network control information to the implemented ruled in the router traffic flow , therefore this hybrid architecture i propose is definitely much better than a distributed architecture or a devolved architecture . the architecture i propose will give a better network performance than an optimal devolved architecture that is based on optimal hybrid architecture with optimal performance on the switches, therefore i propose an overall optimal hybrid devolved architecture and an optimal devolved architecture I am the inventor of the overall optimal devolved architecture in Network Function virtualization and Software defined networking Programming the NFV SDN architecture In a traditional switch that has a control plane and data plane , 

The NFV and SDN solution methodology:

The NFV and SDN solution methodology d Programming the NFV SDN architecture In a traditional switch that has a control plane and data plane , the concept of programmatic NFV SDN architecture is important as i can introduce more control into the NFV architecture based on the programmable switches based on programming the routing tables in the switches where rather than having the switches in the hardware mode then the concept of Application specific integrated is introduced with data handling programming as software modules with the aim of ensuring scalability reliability and network speed . it involves programming a set of rules to find the destination switch and routing path,i do interesting programming in this area where i can introduce the concept of computational intelligence in obtaining an optimal router traffic flow

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