Basic aspects of topological technology of automated on-board equipment layout in space vehicle compartments using the example of “Yantar-2k” Earth remote sensing space vehicle

VESTNIK of Samara University. Aerospace and Mechanical Engineering Pub Date : 2023-01-18 DOI:10.18287/2541-7533-2022-21-4-7-24

A. A. Belyakov, A. Shulepov

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Abstract

The article presents the theoretical foundations of automated design of on-board equipment layout in spacecraft compartments in terms of topology. The purpose of the work is to create a flexible arrangement model that would allow solving the problem for any configuration of the structure, taking into account the engineering and operational restrictions imposed on the objects located in a limited space. The technology is formalized according to the methods of the foundations of topology and in this work is demonstrated for a two-dimensional case by comparing it with a reference design-layout scheme. The functional, installation, dimensional, thermal, vibroacoustic requirements are taken into account with the mass-centering restrictions of the layout. In the course of the study, a new approach to describing the design process of assembling on-board equipment was obtained, which can be fully digitized and then integrated into known computer-aided design systems. It has been verified using the example of the power supply system of the Yantar-2k spacecraft.

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以“扬塔尔-2k”地球遥感空间飞行器为例，研究了空间飞行器舱室机载设备自动化布置拓扑技术的基本方面

本文从拓扑学的角度阐述了航天器舱内机载设备布置自动化设计的理论基础。这项工作的目的是创建一个灵活的安排模型，允许解决任何结构配置的问题，同时考虑到工程和操作限制，这些限制位于有限的空间中。根据拓扑学基础的方法对该技术进行了形式化，并通过与参考设计布局方案的比较，在二维情况下进行了演示。考虑了功能、安装、尺寸、热、振声要求和布局的质量中心限制。在研究过程中，获得了一种描述机载设备装配设计过程的新方法，该方法可以完全数字化，然后集成到已知的计算机辅助设计系统中。并以“扬塔尔-2k”飞船供电系统为例进行了验证。

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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VESTNIK of Samara University. Aerospace and Mechanical Engineering

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