Development and Demonstration of the Mission Control System for Artificial Meteor Generating Micro-satellites

2021 IEEE/SICE International Symposium on System Integration (SII) Pub Date : 2021-01-11 DOI:10.1109/IEEECONF49454.2021.9382604

Y. Shibuya, Yuji Sato, Hannah Tomio, T. Kuwahara, S. Fujita, K. Kamachi, H. Watanabe

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引用次数: 1

Abstract

The Space Robotics Laboratory of Tohoku University and ALE Co., Ltd. have developed the micro-satellites “ALE-I” and “ALE-2” to demonstrate the generation of artificial meteors. These meteors will be created by the ejection of meteor particles on orbit. This mission necessitates strict safety requirements to prevent the released particles from colliding with other satellites and spacecraft. In this project, we constructed a ground system for the operation of these satellites and established an operation plan to meet their safety requirements. The ground system uses a virtual ground station interface to operate multiple ground stations around the world via an antenna sharing service. A meteor particle release simulation was conducted with ALE-2 on orbit to demonstrate and validate the ground system and operation plan. The results of this test, presented here, show that the ground system can be successfully used to conduct the artificial meteor mission and these operations meet the safety requirements.

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人造流星微卫星任务控制系统的研制与验证

日本东北大学空间机器人实验室和ALE株式会社开发了“ALE- 1”和“ALE-2”微型卫星，以演示人工流星的产生。这些流星是由轨道上的流星粒子抛射形成的。这项任务需要严格的安全要求，以防止释放的粒子与其他卫星和航天器相撞。在本项目中，我们构建了这些卫星运行的地面系统，并制定了满足其安全要求的运行计划。地面系统使用虚拟地面站接口，通过天线共享服务操作世界各地的多个地面站。利用ALE-2在轨道上进行了流星粒子释放模拟，对地面系统和操作方案进行了论证和验证。试验结果表明，地面系统可以成功地用于人工流星任务，并且这些操作满足安全要求。

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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2021 IEEE/SICE International Symposium on System Integration (SII)

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