Article: Research on end-to-end computing power network architecture based on SDN and MIH technology Journal: International Journal of Computational Systems Engineering (IJCSYSE) 2024 Vol.8 No.7 pp.1 - 13 Abstract: For ubiquitous access, the study selects software-defined networks with independent switching, control upgrades, and centralised management using the manager to achieve the same control. Pre-filtering and D-VIKOR are used in network switching decisions to help perform network decisions. The experimental results show that the network architecture is suitable for mobile network scenarios. In the 30-m/s in-vehicle scenario, the latency is reduced by 27.55%, and the overall switching effectiveness is improved by 10.21%. For the situation that the increase in arithmetic power will lead to more nodes, which will increase switching errors and blocking, the relevant test results show that the number of vertical switching errors for the SDN architecture is less than that of the D-TOPSIS architecture 285 times less. This indicates that the end-side network architecture constructed in the study can handle the switching requirements of heterogeneous networks and also shows excellent performance on different problems in multiple scenarios. Inderscience Publishers - linking academia, business and industry through research

Title: Research on end-to-end computing power network architecture based on SDN and MIH technology

Authors: Fang Cui; Jianhua Gu; Hengjiang Wang; Mao Ni; Ting Zhou

Addresses: China Mobile Group Device Co., Ltd., Beijing, 100053, China ' China Mobile Group Device Co., Ltd., Beijing, 100053, China ' China Mobile Group Device Co., Ltd., Beijing, 100053, China ' China Mobile Group Device Co., Ltd., Beijing, 100053, China ' China Mobile Group Device Co., Ltd., Beijing, 100053, China

Abstract: For ubiquitous access, the study selects software-defined networks with independent switching, control upgrades, and centralised management using the manager to achieve the same control. Pre-filtering and D-VIKOR are used in network switching decisions to help perform network decisions. The experimental results show that the network architecture is suitable for mobile network scenarios. In the 30-m/s in-vehicle scenario, the latency is reduced by 27.55%, and the overall switching effectiveness is improved by 10.21%. For the situation that the increase in arithmetic power will lead to more nodes, which will increase switching errors and blocking, the relevant test results show that the number of vertical switching errors for the SDN architecture is less than that of the D-TOPSIS architecture 285 times less. This indicates that the end-side network architecture constructed in the study can handle the switching requirements of heterogeneous networks and also shows excellent performance on different problems in multiple scenarios.

Keywords: count-network convergence: end-side network; architecture; switching delay; mobile scenario.

DOI: 10.1504/IJCSYSE.2024.143310

International Journal of Computational Systems Engineering, 2024 Vol.8 No.7, pp.1 - 13

Received: 14 Jun 2023
Accepted: 10 Aug 2023
Published online: 13 Dec 2024 *

Title: Research on end-to-end computing power network architecture based on SDN and MIH technology

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