SpaceTuna1 is ananosatellite developed byKindai University to 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.[3] SpaceTuna1 has been launched fromWallops Flight Facility on board aCygnus spacecraft on 7 November 2022, and will later be deployed from theInternational Space Station (ISS).[1][4]
SpaceTuna1was jointly developed by Kindai University, EXEDY Corporation and Nippon Carbide Industries.[5] The spacecraft is a 10 cm size cube, or a 1U sizeCubeSat. The satellite frame was developed by EXEDY Corporation.[5]
The project started from 2016, and is the first satellite developed by Kindai University.[3]Kindai University is known in Japan for its extensive research onfarming bluefin tuna, with the school earning the nickname 'tuna university'.[6]
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 aslaparotomy or attaching the tag to the fish'sspine using 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.[7][8]
While in orbit, SpaceTuna1 will be irradiated with a laser sent from the ground.[9][10] The spacecraft is covered with aretroreflector sheet,[11] and ground-based receivers will measure the reflected light.[12] An opticalground station operated by Japan'sNational Institute of Information and Communications Technology (NICT) capable of tracking satellites will be used to irradiate SpaceTuna1.[11] Observations will be conducted for over a year to monitor how the sheet deteriorates in space.[5] The sheet was developed by Kindai University and Nippon Carbide Industries.[13]
On one side of the CubeSatlight-emitting diodes (LEDs) are attached so that ground-based telescoped can optically detect its position in orbit.[11][9]
Launches are separated by dots ( • ), payloads by commas ( , ), multiple names for the same satellite by slashes ( / ). Crewed flights are underlined. Launch failures are marked with the † sign. Payloads deployed from other spacecraft are (enclosed in parentheses).
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