Present the System Design Process and Review of Specifications of a Very Low-Cost 6U CubeSat Platform to Improve Accessibility to Space Based on Pluto Experience

Mansoureh Abbasy, Mohammad Aghayi Motaaleghi
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Abstract

This article presents the systematic design process for a low-cost 6U CubeSat platform, drawing on the experience of the highly motivated Pluto team. The team's success in a national academic CubeSat design competition led to the establishment of a space startup and the decision to develop a 6U platform. The primary motivation for writing this research is to increase access to space and space services by helping startups _especially in underdeveloped countries, design and build a CubeSat with the least cost and effort in the shortest possible time. In the design process, simplicity, reliability, and the possibility of reproduction at the lowest possible cost have been prioritized. Aligned with ECSS standards tailored for CubeSats, the design method parameters of the 6U platform are thoroughly examined. The article highlights the development of a state machine and the justification of design requirements through standard methods and tracking them using RTM and RVTM tables. Effective interface control while using COTS components is emphasized to reduce costs by approximately 50% while ensuring quality and meeting space environment requirements. The architecture of the Pluto platform, comprising entirely of commercial components, is showcased, providing insights into its system characteristics. This systematic design underscores the importance of modularity, affordability, and utilization of COTS components. By sharing their experiences, the Pluto team aims to support space industry startups and inspire innovative CubeSat projects.

Abstract Image

根据冥王星的经验,介绍了一个非常低成本的6U立方体卫星平台的系统设计过程和规格审查,以提高太空可达性
本文介绍了低成本6U立方体卫星平台的系统设计过程,借鉴了积极进取的Pluto团队的经验。该团队在全国学术立方体卫星设计竞赛中的成功促成了一家太空初创公司的成立,并决定开发6U平台。撰写这项研究的主要动机是通过帮助初创公司——特别是欠发达国家的初创公司——在尽可能短的时间内以最少的成本和精力设计和建造立方体卫星,来增加获得太空和太空服务的机会。在设计过程中,简单性、可靠性和以尽可能低的成本复制的可能性被列为优先事项。根据为立方体卫星量身定制的ECSS标准,对6U平台的设计方法参数进行了彻底检查。本文重点介绍了状态机的开发,以及通过标准方法对设计要求的证明,并使用RTM和RVTM表对其进行跟踪。强调在使用COTS组件时进行有效的接口控制,以降低约50%的成本,同时确保质量并满足空间环境要求。展示了完全由商业组件组成的Pluto平台的架构,提供了对其系统特征的深入了解。这种系统设计强调了COTS组件的模块化、可负担性和利用率的重要性。通过分享他们的经验,Pluto团队旨在支持航天行业的初创公司,并激励创新的CubeSat项目。
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