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Design, Implementation, and Operation of a Small Satellite Mission to Explore the Space Weather Effects in LEO
Ten-Koh is a 23.5 kg, low-cost satellite developed to conduct space environment effects research in low-Earth orbit (LEO). Ten-Koh was developed primarily by students of the Kyushu Institute of Technology (Kyutech) and launched on 29 October 2018 on-board HII-A rocket F40, as a piggyback payload of...
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| Published in: | Aerospace 2019-10, Vol.6 (10), p.108 |
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| creator | Fajardo, Isai Lidtke, Aleksander Bendoukha, Sidi Gonzalez-Llorente, Jesus Rodríguez, Rafael Morales, Rigoberto Faizullin, Dmytro Matsuoka, Misuzu Urakami, Naoya Kawauchi, Ryo Miyazaki, Masayuki Yamagata, Naofumi Hatanaka, Ken Abdullah, Farhan Rojas, Juan Keshk, Mohamed Cosmas, Kiruki Ulambayar, Tuguldur Saganti, Premkumar Holland, Doug Dachev, Tsvetan Tuttle, Sean Dudziak, Roger Okuyama, Kei-ichi |
| description | Ten-Koh is a 23.5 kg, low-cost satellite developed to conduct space environment effects research in low-Earth orbit (LEO). Ten-Koh was developed primarily by students of the Kyushu Institute of Technology (Kyutech) and launched on 29 October 2018 on-board HII-A rocket F40, as a piggyback payload of JAXA’s Greenhouse gas Observing Satellite (GOSAT-2). The satellite carries a double Langmuir probe, CMOS-based particle detectors and a Liulin spectrometer as main payloads. This paper reviews the design of the mission, specifies the exact hardware used, and outlines the implementation and operation phases of the project. This work is intended as a reference that other aspiring satellite developers may use to increase their chances of success. Such a reference is expected to be particularly useful to other university teams, which will likely face the same challenges as the Ten-Koh team at Kyutech. Various on-orbit failures of the satellite are also discussed here in order to help avoid them in future small spacecraft. Applicability of small satellites to conduct space-weather research is also illustrated on the Ten-Koh example, which carried out simultaneous measurements with JAXA’s ARASE satellite. |
| doi_str_mv | 10.3390/aerospace6100108 |
| format | article |
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Ten-Koh was developed primarily by students of the Kyushu Institute of Technology (Kyutech) and launched on 29 October 2018 on-board HII-A rocket F40, as a piggyback payload of JAXA’s Greenhouse gas Observing Satellite (GOSAT-2). The satellite carries a double Langmuir probe, CMOS-based particle detectors and a Liulin spectrometer as main payloads. This paper reviews the design of the mission, specifies the exact hardware used, and outlines the implementation and operation phases of the project. This work is intended as a reference that other aspiring satellite developers may use to increase their chances of success. Such a reference is expected to be particularly useful to other university teams, which will likely face the same challenges as the Ten-Koh team at Kyutech. Various on-orbit failures of the satellite are also discussed here in order to help avoid them in future small spacecraft. Applicability of small satellites to conduct space-weather research is also illustrated on the Ten-Koh example, which carried out simultaneous measurements with JAXA’s ARASE satellite.</description><identifier>ISSN: 2226-4310</identifier><identifier>EISSN: 2226-4310</identifier><identifier>DOI: 10.3390/aerospace6100108</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Aerospace environments ; CMOS ; Communication ; Composite materials ; Cosmic rays ; Cost control ; Earth orbits ; Environmental effects ; Failure ; Greenhouse gases ; Japanese space program ; langmuir probe ; Low earth orbits ; magnetometer ; Objectives ; particle detectors ; Payloads ; plasma ; Radiation ; Radiation counters ; rapid spacecraft development ; Satellite observation ; Satellites ; single events ; Small satellites ; small-satellite ; Software ; space environment ; Space missions ; Space weather ; Spacecraft ; ten-koh ; Transistors ; Weather effects</subject><ispartof>Aerospace, 2019-10, Vol.6 (10), p.108</ispartof><rights>2019 by the authors. 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Ten-Koh was developed primarily by students of the Kyushu Institute of Technology (Kyutech) and launched on 29 October 2018 on-board HII-A rocket F40, as a piggyback payload of JAXA’s Greenhouse gas Observing Satellite (GOSAT-2). The satellite carries a double Langmuir probe, CMOS-based particle detectors and a Liulin spectrometer as main payloads. This paper reviews the design of the mission, specifies the exact hardware used, and outlines the implementation and operation phases of the project. This work is intended as a reference that other aspiring satellite developers may use to increase their chances of success. Such a reference is expected to be particularly useful to other university teams, which will likely face the same challenges as the Ten-Koh team at Kyutech. Various on-orbit failures of the satellite are also discussed here in order to help avoid them in future small spacecraft. 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| ispartof | Aerospace, 2019-10, Vol.6 (10), p.108 |
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| language | eng |
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| source | ProQuest - Publicly Available Content Database; EZB Electronic Journals Library |
| subjects | Aerospace environments CMOS Communication Composite materials Cosmic rays Cost control Earth orbits Environmental effects Failure Greenhouse gases Japanese space program langmuir probe Low earth orbits magnetometer Objectives particle detectors Payloads plasma Radiation Radiation counters rapid spacecraft development Satellite observation Satellites single events Small satellites small-satellite Software space environment Space missions Space weather Spacecraft ten-koh Transistors Weather effects |
| title | Design, Implementation, and Operation of a Small Satellite Mission to Explore the Space Weather Effects in LEO |
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