Software Architecture Design of Distributed Satellite Systems Test Bed

2022 IEEE Biennial Congress of Argentina (ARGENCON) Pub Date : 2022-09-07 DOI:10.1109/ARGENCON55245.2022.9939729

Santiago Husain Cerruti, M. España, P. Servidia

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引用次数: 1

Abstract

CONAE is currently investigating multi-static Earth Observation from Formation Flying Distributed Satellite Systems. The design, verification, testing and integration of satellite formation-flying technology pose, nonetheless, stringent challenges to achieve mission success. From a Systems Engineering standpoint, we provide a software architecture enabling a user to develop and ground validate flight software and hardware using a model-based design philosophy. This philosophy is supported by an Object-Oriented Design methodology, amply used nowadays to model and manage the software complexity of Space Systems. We first introduce the concept of Distributed Satellite Systems, their interest in Earth Observation and the main functional blocks of a test bed laboratory. After stating the fundamental principles of Object-Oriented Design, we apply them to the design of the simulation environment software architecture. A use case of an Autonomous Formation-Flying control algorithm is introduced as a guide for the usage of the proposed software Framework. We conclude with a brief description of ongoing work towards implementing a hardware in the loop test bed laboratory.

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分布式卫星系统试验台软件体系结构设计

CONAE目前正在研究编队飞行分布式卫星系统的多静态地球观测。然而，卫星编队飞行技术的设计、验证、测试和集成对实现任务的成功提出了严峻的挑战。从系统工程的角度来看，我们提供了一个软件架构，使用户能够使用基于模型的设计理念开发和地面验证飞行软件和硬件。这一理念得到了面向对象设计方法的支持，该方法如今被广泛用于空间系统的软件复杂性建模和管理。我们首先介绍了分布式卫星系统的概念，它们对地球观测的兴趣和试验台实验室的主要功能模块。在阐述了面向对象设计的基本原理后，将其应用于仿真环境软件体系结构的设计。介绍了一个自主编队飞行控制算法的用例，作为所提出的软件框架的使用指南。最后，我们简要描述了正在进行的实现硬件在环路试验台实验室的工作。

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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2022 IEEE Biennial Congress of Argentina (ARGENCON)

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