Centralized network infrastructure and virtualization of inter wireless networks

Wireless network computing has been suggested as a voracious development by isolating and exchanging network infrastructure across various software systems in future wireless networks to counter the contradiction amongst the rapid development of the demand for information services besides the small...

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Bibliographic Details
Main Authors: Mulugu, Narendhar, Rao, Channapragada Rama Seshagiri, Raju, Yeligeti, K., L. N. C. Prakash
Format: Conference Proceeding
Language:English
Subjects:
Algorithms
Coagulation
Energy management
Information services
Infrastructure
Network latency
Optimization
Quality of service architectures
Queueing
Stability criteria
Wireless networks
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Summary:Wireless network computing has been suggested as a voracious development by isolating and exchanging network infrastructure across various software systems in future wireless networks to counter the contradiction amongst the rapid development of the demand for information services besides the small bandwidth of resources. In this article, the multi-service virtualized wireless system consists of three broad-based situations and suggests a two-dimensional hierarchic resource distribution system. The resource division and allotment dilemma are composed of two-time scales with a large time frame before the equivalent lateral assets and a limited time frame for the intra-slice resource preparation. In the long run, the problem of pre-allotting inter-slice services is conceived by modelling the packets that arrive and serve each slice as a queuing device. In short, the source and energy management in each share is described as a stochastic optimization problem because of variable time and complex traffic arrivals. This problem aims to maximize overall output relative to various service quality criteria, including network stability, latency, throughput, and control restrictions. By applying the Lyapunov objective function, the stochastic optimization problem can be turned into a delay-aware optimization problematic methodology comprising a probabilistic and concave algorithm. The simulation findings show that the suggested systems will minimize uncertainty with an output loss of up to 0.017 percent relative to the optimum solution, which also allows for a balance in terms of the regulation coagulation Factor quality.
ISSN:0094-243X
1551-7616
DOI:10.1063/5.0110984