Development, description, and validation of the operations manual for EIRSAT-1, a 2U CubeSat with a gamma-ray burst detector

IF 1.7 3区工程技术 Q2 ENGINEERING, AEROSPACE

Journal of Astronomical Telescopes Instruments and Systems Pub Date : 2023-07-01 DOI:10.1117/1.JATIS.9.3.037001

Rachel Dunwoody, M. Doyle, D. Murphy, Gabriel Finneran, D. O’Callaghan, Jack Reilly, Joseph W. Thompson, Sai Krishna Reddy Akarapu, Cuán de Barra, L. Cotter, Aaron Empey, Joseph Fisher, Joe Mangan, Caimin McKenna, Bas Stijnen, L. Hanlon, David J. McKeown, William J. O'Connor, Alexey Uliyanov, R. Wall, B. Shortt, S. McBreen

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引用次数: 0

Abstract

Abstract. CubeSats provide opportunities for science and technology demonstration missions with low-cost solutions and short project timescales, in particular, for studying gamma-ray bursts (GRBs) in the multi-messenger era. A robust operations strategy for scientific CubeSat projects is key to optimizing the results obtained from the experimental instruments. The Educational Irish Research Satellite-1 (EIRSAT-1) is a 2U CubeSat with three payloads, including a bespoke gamma-ray detector, gamma-ray module (GMOD), developed in-house for the detection of GRBs. The detection and reporting of GRB triggers to the scientific community complicates and drives the mission operational strategy. The operational procedures developed for commissioning and operating GMOD are detailed. The successful operation of EIRSAT-1 will facilitate the detection of ∼15 GRBs / year in low Earth orbit. To increase the likelihood of mission success, the project is following a prototype model philosophy, building, and testing, both an engineering qualification model (EQM) and flight model. The EIRSAT-1 operations manual is the document that will instruct operators in commanding the spacecraft correctly and efficiently throughout the mission lifetime. The operations manual must be refined in parallel to payload development. This two-model philosophy has provided time for the early development of the EIRSAT-1 operations manual with the EQM. The EIRSAT-1 operations manual has undergone incremental updates based on feedback from operational development tests (ODTs), and a version with 35 procedures was frozen prior to the month-long EQM mission test (MT). Specifically, the objective of our work is to validate and refine the operations manual using the EQM MT process. Although the ODTs were effective preparation, the MT process highlighted issues, such as procedures operators found convoluted, and scenarios not yet considered during the initial development stages. Two new procedures were identified, 8 procedures required major updates, 15 required minor updates, and the remaining 12 required no improvements after the MT. The validation process facilitated operator training in mission representative conditions, such as GRB triggering data downlink with GMOD, and the major lessons learned during the development and validation process are presented.

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EIRSAT-1操作手册的开发、描述和验证，EIRSAT-1是一颗带伽马射线暴探测器的2U立方体卫星

摘要立方体卫星以低成本解决方案和较短的项目时间为科学和技术示范任务提供了机会，特别是在多信使时代研究伽马射线暴(grb)。科学立方体卫星项目的稳健操作策略是优化实验仪器结果的关键。爱尔兰教育研究卫星1号(EIRSAT-1)是一颗2U立方体卫星，有三个有效载荷，包括一个定制的伽马射线探测器，伽马射线模块(GMOD)，内部开发用于探测伽马射线暴。GRB触发器的探测和向科学界报告使任务的操作策略变得复杂和驱动。详细介绍了调试和操作GMOD的操作程序。EIRSAT-1的成功运行将有助于每年在近地轨道上探测到~ 15个grb。为了增加任务成功的可能性，该项目正在遵循原型模型的理念，建造和测试，包括工程鉴定模型(EQM)和飞行模型。EIRSAT-1操作手册是指导操作人员在整个任务生命周期内正确有效地指挥航天器的文件。操作手册必须在有效载荷开发的同时进行改进。这种双模型哲学为EIRSAT-1操作手册与EQM的早期开发提供了时间。EIRSAT-1操作手册已经根据操作开发测试(odt)的反馈进行了增量更新，一个包含35个程序的版本在为期一个月的EQM任务测试(MT)之前被冻结。具体地说，我们工作的目标是使用EQM MT过程验证和改进操作手册。尽管odt是有效的准备工作，但MT过程突出了一些问题，例如操作人员发现程序复杂，以及在初始开发阶段尚未考虑的场景。确定了两个新程序，8个程序需要主要更新，15个程序需要次要更新，其余12个程序在MT后不需要改进。验证过程促进了操作员在任务代表性条件下的培训，例如GRB触发与GMOD的数据下行，并介绍了在开发和验证过程中吸取的主要经验教训。

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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来源期刊

Journal of Astronomical Telescopes Instruments and Systems Engineering-Mechanical Engineering

CiteScore

4.40

自引率

13.00%

发文量

119

期刊介绍： The Journal of Astronomical Telescopes, Instruments, and Systems publishes peer-reviewed papers reporting on original research in the development, testing, and application of telescopes, instrumentation, techniques, and systems for ground- and space-based astronomy.