Extensive Regional Telecommunications Coverage in Emergency Condition using Satellite and Tethered-Balloon Equipped with Antenna Pointing Mechanism – Part 2: Operation Modes and Controller Design

Journal of Space Science and Technology Pub Date : 2022-12-22 DOI:10.30699/jsst.2023.1341

J. Ranjbar, Mohammad Fathi

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Abstract

In this paper, in order to provide telecommunication coverage for a wide geographical area, the use of a network consisting of an LEO satellite and a Tethered-Balloon equipped with antenna pointing mechanism is proposed. The proposed telecommunication network is able to send the collected data to a mission center outside the covered region and receive the required telecommands, while providing a telecommunication link between the users in the covered region. To control and point the antenna beams towards desired targets, an Adaptive Dynamic Surface Controller is designed. Determining the required operating modes, designing a mode management algorithm and extracting the appropriate reference trajectories for each operating mode are among the discussed issues in this paper. The Uniform Ultimate Boundary (UUB) stability of the closed-loop system is proved and the performance of the control system is studied by simulation. The proposed communication network and control system are able to provide wide telecommunication coverage in remote areas or emergency situations .

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在紧急情况下使用配备天线指向机构的卫星和系留气球进行广泛的区域电信覆盖。第2部分:操作模式和控制器设计

为了提供大范围的通信覆盖，本文提出了一种由低轨道卫星和配备天线指向机构的系留气球组成的网络。拟议的电信网络能够将收集到的数据发送到覆盖区域以外的任务中心并接收所需的远程指令，同时在覆盖区域内的用户之间提供电信链路。为了控制天线波束并使其指向目标，设计了一种自适应动态表面控制器。确定所需的工作模式，设计模式管理算法以及提取每种工作模式的适当参考轨迹是本文讨论的问题。证明了闭环系统的均匀极限边界稳定性，并通过仿真研究了控制系统的性能。拟议的通信网络和控制系统能够在偏远地区或紧急情况下提供广泛的电信覆盖。

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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Journal of Space Science and Technology

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