SpaceTuna1

SpaceTuna1
Mission type	Technology demonstration
Operator	Kindai University
Spacecraft properties
Spacecraft type	CubeSat
Start of mission
Launch date	7 November 2022, 10:42:32UTC
Rocket	Antares 230+
Launch site	MARS,Pad 0A
Deployed from	ISSKibō; Delivered byCygnus NG-18
Orbital parameters
Reference system	Geocentric
Regime	Low Earth
Inclination	51.6°

SpaceTuna1is ananosatellitedeveloped byKindai Universityto test the properties of reflective materials in space.The project aims to use this technology to monitor tunas as an alternative to the use of tags for biologging.^[2]SpaceTuna1 has been launched fromWallops Flight Facilityon board aCygnusspacecraft on 7 November 2022, and will later be deployed from theInternational Space Station(ISS).^[1]^[3]

Overview

SpaceTuna1was jointly developed by Kindai University, EXEDY Corporation and Nippon Carbide Industries.^[4]The spacecraft is a 10 cm size cube, or a 1U sizeCubeSat.The satellite frame was developed by EXEDY Corporation.^[4]

The project started from 2016, and is the first satellite developed by Kindai University.^[2]Kindai Universityis known in Japan for its extensive research onfarming bluefin tuna,with the school earning the nickname 'tuna university'.^[5]

Mission

Ecological survey of bluefin tuna is typically conducted by attaching a tag to the fish which will then take records of its position. The usefulness of the tags are limited by its battery life, and data cannot be gained in actual time but only after the tag is recovered. Furthermore attaching the tag can put a strain on the tuna as it necessitates processes such aslaparotomyor attaching the tag to the fish'sspineusing a wire. Kindai University is proposing an alternative to the tags, a reflective sheet that can be attached to the fish. The movement of the tunas will be monitored from space by using a satellite equipped with a laser to irradiate the sheets. SpaceTuna1 will be used to test if the sheets can be observed from 300 km away.^[6]^[7]

While in orbit, SpaceTuna1 will be irradiated with a laser sent from the ground.^[8]^[9]The spacecraft is covered with aretroreflectorsheet,^[10]and ground-based receivers will measure the reflected light.^[11]An opticalground stationoperated by Japan'sNational Institute of Information and Communications Technology(NICT) capable of tracking satellites will be used to irradiate SpaceTuna1.^[10]Observations will be conducted for over a year to monitor how the sheet deteriorates in space.^[4]The sheet was developed by Kindai University and Nippon Carbide Industries.^[12]

On one side of the CubeSatlight-emitting diodes(LEDs) are attached so that ground-based telescoped can optically detect its position in orbit.^[10]^[8]

References

^^a ^bSpaceflight [@SpaceflightInc] (9 November 2022)."Never a dull moment in space, but the #Cygnus has reach the #ISS with our customer payload, #SpaceTuna. Looking forward to deployment!"(Tweet) – viaTwitter.
^^a ^bAbe, Shuichi (April 18, 2018)."Thứ は “Vũ trụ マグロ” sinh thái giải minh へ vệ tinh đánh ち thượng げ ".The Mainichi Newspapers(in Japanese).Retrieved2022-11-06.
^"KINDAI UNIVERSITY'S SPACETUNA1 HEADED TO ISS ONBOARD NG-18: THE S.S. SALLY RIDE".Spaceflight, Inc.Retrieved2022-11-06.
^^a ^b ^c"Gần kỳ đại học とエクセディなど, siêu loại nhỏ nhân công vệ tinh を đánh ち thượng げ".The Nikkei(in Japanese). April 28, 2022.Retrieved2022-11-06.
^Matsuoka, Tatsuro (January 31, 2015)."“マグロ đại học って ngôn うてるヤツ, ai や?” Cường khí の gần đại, có hi vọng な nghiên cứu ごろごろ ".SankeiBiz(in Japanese).Retrieved2022-11-06.
^Kutsuzawa, Shinji (April 19, 2018)."Gần đại, “Vũ trụ マグロプロジェクト” thủy động phản xạ tài を phó けた sinh vật に nhân công vệ tinh からレーザーを chiếu xạ し sinh thái を điều tra ".Netolabo(in Japanese).Retrieved2022-11-07.
^"“Thiên nhiên マグロ” vũ trụ から truy tích nhân công vệ tinh で sinh thái điều tra ".Sankei Shimbun(in Japanese). May 12, 2018.Retrieved2022-11-07.
^^a ^b"SpaceTuna1".NASA.Retrieved2022-11-07.
^"Gần đại sinh が tổ み lập てた “Vũ trụ マグロ1 hào” が vũ trụ へ ".sorae(in Japanese). May 5, 2022.Retrieved2022-11-07.
^^a ^b ^c"Siêu loại nhỏ nhân công vệ tinh đánh ち thượng げプロジェクト! Gần đại sinh が tổ み lập てた “Vũ trụ マグロ1 hào” が vũ trụ へ "(PDF)(Press release) (in Japanese). EXEDY Corporation. April 27, 2022.RetrievedNovember 6,2022.
^"Đệ 5 đạn クラウドファンディング thiên nhiên マグロを tương lai に tàn せ! Vũ trụ からの sinh thái điều tra “Vũ trụ マグロ” プロジェクト -- gần kỳ đại học "(Press release) (in Japanese).Kindai University.April 13, 2018.RetrievedNovember 7,2022.
^"Phú sơn の kỹ thuật, vũ trụ へ Nhật Bản カーバイド gần đại と khai phát の phản xạ シート thật nghiệm siêu loại nhỏ vệ tinh で năm nội に".The Toyama Shimbun(in Japanese). April 28, 2022.Retrieved2022-11-07.

External links

Space satellite / Kindai tuna(in Japanese)

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[sf-20221109-1] Spaceflight [@SpaceflightInc] (9 November 2022)."Never a dull moment in space, but the #Cygnus has reach the #ISS with our customer payload, #SpaceTuna. Looking forward to deployment!"(Tweet) – viaTwitter.

[Mainichi-2] Abe, Shuichi (April 18, 2018)."Thứ は “Vũ trụ マグロ” sinh thái giải minh へ vệ tinh đánh ち thượng げ ".The Mainichi Newspapers(in Japanese).Retrieved2022-11-06.

[3] "KINDAI UNIVERSITY'S SPACETUNA1 HEADED TO ISS ONBOARD NG-18: THE S.S. SALLY RIDE".Spaceflight, Inc.Retrieved2022-11-06.

[Nikkei-4] "Gần kỳ đại học とエクセディなど, siêu loại nhỏ nhân công vệ tinh を đánh ち thượng げ".The Nikkei(in Japanese). April 28, 2022.Retrieved2022-11-06.

[5] Matsuoka, Tatsuro (January 31, 2015)."“マグロ đại học って ngôn うてるヤツ, ai や?” Cường khí の gần đại, có hi vọng な nghiên cứu ごろごろ ".SankeiBiz(in Japanese).Retrieved2022-11-06.

[Netolabo-6] Kutsuzawa, Shinji (April 19, 2018)."Gần đại, “Vũ trụ マグロプロジェクト” thủy động phản xạ tài を phó けた sinh vật に nhân công vệ tinh からレーザーを chiếu xạ し sinh thái を điều tra ".Netolabo(in Japanese).Retrieved2022-11-07.

[7] "“Thiên nhiên マグロ” vũ trụ から truy tích nhân công vệ tinh で sinh thái điều tra ".Sankei Shimbun(in Japanese). May 12, 2018.Retrieved2022-11-07.

[NASA-8] "SpaceTuna1".NASA.Retrieved2022-11-07.

[9] "Gần đại sinh が tổ み lập てた “Vũ trụ マグロ1 hào” が vũ trụ へ ".sorae(in Japanese). May 5, 2022.Retrieved2022-11-07.

[pr202204-10] "Siêu loại nhỏ nhân công vệ tinh đánh ち thượng げプロジェクト! Gần đại sinh が tổ み lập てた “Vũ trụ マグロ1 hào” が vũ trụ へ "(PDF)(Press release) (in Japanese). EXEDY Corporation. April 27, 2022.RetrievedNovember 6,2022.

[11] "Đệ 5 đạn クラウドファンディング thiên nhiên マグロを tương lai に tàn せ! Vũ trụ からの sinh thái điều tra “Vũ trụ マグロ” プロジェクト -- gần kỳ đại học "(Press release) (in Japanese).Kindai University.April 13, 2018.RetrievedNovember 7,2022.

[Toyama-12] "Phú sơn の kỹ thuật, vũ trụ へ Nhật Bản カーバイド gần đại と khai phát の phản xạ シート thật nghiệm siêu loại nhỏ vệ tinh で năm nội に".The Toyama Shimbun(in Japanese). April 28, 2022.Retrieved2022-11-07.

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v t e ← 2021 Orbital launches in2022 2023 →
January	Starlink G4-5(49 satellites) ION-SCV 004(LabSat,STORK-1,STORK-2,SW1FT),Capella 7,Capella 8,ICEYE X14,ICEYE X16,USA-320,USA-321,USA-322,USA-323,DEWA SAT-1,Flock 4x× 44,Kepler× 4,Lemur-2× 5,Nepal PQ-1 Lemur-2Krywe,STORK-3,TechEdSat-13,Unicorn-1,Unicorn-2× 4 Shiyan 13 Starlink G4-6(49 satellites) USA-324/GSSAP-5,USA-325/GSSAP-6 CSG-2
February	USA-326 Starlink G4-7(49 satellites) Kosmos 2553/ Neitron №1 OneWebL13 (34 satellites) EOS-04/RISAT-1A Progress MS-19 Cygnus NG-17(KITSUNE) Starlink G4-8(46 satellites) Starlink G4-11(50 satellites) Jilin-1 Gaofen-03D× 9,Jilin-1 Mofang-02A 01
March	GOES-18/ GOES-T Starlink G4-9(47 satellites) Noor 2 Starlink G4-10(48 satellites) SpaceBEE× 16,SpaceBEE NZ× 4 Yaogan 34-02 Soyuz MS-21 Starlink G4-12(53 satellites) Meridian-M 10
April	ION-SCV 005(KSF2× 4),EnMAP,Lynk Tower 01,MP42/ Tiger-3,ÑuSat× 5,SpaceBEE× 12 Gaofen 3-03 Kosmos 2554/ Lotos-S1 №5 Axiom Mission 1 ChinaSat 6D USA-327/NOSS-3 9A,NOSS-3 9B Starlink G4-14(53 satellites) SpaceX Crew-4 Kosmos 2555/ EO MKA №2 Starlink G4-16(53 satellites) Jilin-1 Gaofen-03D× 4,Jilin-1 Gaofen-04A
May	SpaceBEE× 16,SpaceBEE NZ× 8,Unicorn-2F Jilin-1 Kuanfu-01C,Jilin-1 Gaofen-03D× 7 Starlink G4-17(53 satellites) Tianzhou 4 Jilin-1 Mofang-01A† Starlink G4-13(53 satellites) Starlink G4-15(53 satellites) Starlink G4-18(53 satellites) Kosmos 2556/ Bars-M 3L Boe OFT-2 ION-SCV 006(SBUDNIC),SHERPA AC1,Vigoride-3,ICEYE× 5,ÑuSat× 4,Lemur-2× 5,Platform 1,PTD-3
June	Progress MS-20 Shenzhou 14 TROPICS 02†,TROPICS 04† Starlink G4-19(53 satellites) CMS-02 or GSAT-24 Yaogan 35-02(3 satellites) CAPSTONE
July	USA-337 Kosmos 2557/GLONASS-K 16L Starlink G4-21(53 satellites) Starlink G3-1(46 satellites) Tianlian II-03 SpaceX CRS-25(TUMnanoSAT) Starlink G4-22(53 satellites) Starlink G3-2(46 satellites) Wentian Starlink G4-25(53 satellites) Yaogan 35-03(3 satellites)
August	Kosmos 2558/ Nivelir №3 USA-335/ RASR-4 USA-336/SBIRS GEO-6 Chinese reusable experimental spacecraft Danuri EOS-02/ Microsat-2A†,AzaadiSAT† Starlink G4-26(52 satellites) Jilin-1 Gaofen-03D× 10,Jilin-1 Hongwai-01A× 6 Starlink G3-3(46 satellites) Yaogan 35-04(3 satellites) Starlink G4-27(53 satellites) Starlink G4-23(54 satellites) Starlink G3-4(46 satellites)
September	Yaogan 33-02 Starlink G4-20(51 satellites) Yaogan 35-05(3 satellites) Eutelsat Konnect VHTS Starlink G4-2(34 satellites) ChinaSat 1E Starlink G4-34(54 satellites) Soyuz MS-22 KH-11 19/NROL-91 Shiyan 14,Shiyan 15 Starlink G4-35(52 satellites) Yaogan 36-01(3 satellites) Shiyan 16A,Shiyan 16B,Shiyan 17
October	TechEdSat-15 SES-20,SES-21 SpaceX Crew-5 Starlink G4-29(52 satellites) Galaxy 33,Galaxy 34 GLONASS-K 17L RAISE-3†,KOSEN-2†,MAGNARO†,MITSUBA†,WASEDA-SAT-ZERO† Huanjing 2E Yaogan 36-02(3 satellites) Hotbird 13F Starlink G4-36(54 satellites) OneWebL14 (36 satellites) Gonets-M× 3 Progress MS-21 Starlink G4-31(53 satellites) Shiyan 20C Mengtian
November	LDPE-2,USA-339/ Shepherd Demonstration,USA-340,USA-341,USA-344/ USUVL Kosmos 2563/EKS-6 Hotbird 13G MATS ChinaSat 19 Cygnus NG-18(SpaceTuna1) NOAA-21,LOFTID Yunhai-3 01 Tianzhou 5 Galaxy 31,Galaxy 32 Yaogan 34-03 Jilin-1 Gaofen-03D× 5 Artemis I(ArgoMoon,BioSentinel,CuSP,EQUULEUS,LunaH-Map,Lunar IceCube,LunIR,Near-Earth Asteroid Scout,OMOTENASHI,Team Miles) Eutelsat 10B EOS-06 /Oceansat-3,Astrocast× 4 SpaceX CRS-26 Yaogan 36-03(3 satellites) Kosmos 2564/GLONASS-M 761 Shenzhou 15 Kosmos 2565/ Lotos-S1 №6 (Kosmos 2566) Oceansat-3
December	Gaofen 5-01A OneWebL15 (40 satellites) Jilin-1 Gaofen-03D× 7,Jilin-1 Pingtai-01A 01 Hakuto-R Mission 1(Rashid),Lunar Flashlight Shiyan 20A,Shiyan 20B Galaxy 35,Galaxy 36,MTG-I1 Yaogan 36-04(3 satellites) Shiyan 21 SWOT O3b mPOWER 1,O3b mPOWER 2 Starlink G4-37(54 satellites) Pléiades Neo 5†,Pléiades Neo 6† Gaofen 11-04 Starlink G5-1(54 satellites) Shiyan 10-02 EROS-C3
Launches are separated by dots ( • ), payloads by commas (, ), multiple names for the same satellite by slashes ( / ). Crewed flightsare underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).