Virtualized High Throughput Satellite Gateway with a Global Bandwidth Management Method

Mob. Inf. Syst. Pub Date : 2022-01-11 DOI:10.1155/2022/6257885

Haike Liu, Huajian Zhang, Kai Yang, Jiali Li

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引用次数: 1

Abstract

With the development of new satellite payload technology, in order to improve the utilization of system resources, research is based on software-defined network (SDN) and network function virtualization (NFV) gateway architecture. Based on this architecture, the system realizes global resource management and overall data distribution, which can solve the problem of resource allocation and maximum/minimum rate guarantee between different VNO terminals under different beams, different gateways, and different satellites. For this, a global bandwidth management method can be used which is mainly a process of management to control the traffic on a communication link. The proposed global resource management and control method can be based on the rate guarantee value of the VNO/terminal configured in the system as the basic limiting condition and reallocate the rate guarantee value limiting parameter according to the resource application status of the online terminal. The method can maximize the resource utilization of the entire satellite communication system and satisfy the resource request of the user terminal as much as possible.

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具有全局带宽管理方法的虚拟化高吞吐量卫星网关

随着卫星载荷新技术的发展，为了提高系统资源利用率，研究基于软件定义网络(SDN)和网络功能虚拟化(NFV)网关架构。基于该体系结构，系统实现了全局资源管理和整体数据分发，解决了不同波束、不同网关、不同卫星下不同VNO终端之间的资源分配和最大/最小速率保证问题。为此，可以采用全局带宽管理方法，它主要是对通信链路上的流量进行控制的管理过程。所提出的全局资源管理和控制方法可以将系统中配置的VNO/终端的速率保证值作为基本限制条件，并根据在线终端的资源应用状态重新分配速率保证值限制参数。该方法可以最大限度地利用整个卫星通信系统的资源，尽可能地满足用户终端的资源需求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mob. Inf. Syst.

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