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TUBIN

Technische Universität Berlin Infrared Nanosatellite
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TUBIN (Technische Universität Berlin Infrared Nanosatellite) is a university satellite mission with the objective to demonstrate novel Earth remote sensing technologies for nanosatellites. Since power and size limitations prove prohibitive to accommodating cooled HgCdTe infrared detectors on a nanosatellite, TUBIN will carry two uncooled microbolometer imagers. In addition, a third imager with sensitivity in the visible spectrum will complement the infrared payload. The ground resolution of the thermal images will be 180 m. Due to the much smaller pixel size, the images of the visible spectrum camera will have a ground resolution of 50 m.

CAD Model des TUBIN
Lupe

Following the TechnoSat mission, TUBIN is the second satellite to be based on the TUBiX20 platform of Technische Universität Berlin. Secondary mission objective is the on-orbit verification of the high accuracy configuration of the TUBiX20 attitude determination and control system.

References

Werner, Philipp; Starke, Mario; Graf, Alexander; Gordon, Karsten and Barschke, Merlin F. (2015). Modular electrical ground support equipment for nanosatellites. Proceedings of the 10th IAA Symposium on Small Satellites for Earth Observation, 211–214.


Frank Baumann and Klaus Brieß (2015). A Quad-channel UHF Transceiver for TUBiX20. 10th IAA Symposium on Small Satellites for Earth Observation


Barschke, Merlin F.; Ballheimer, Walter; Gordon, Karsten and Brieß, Klaus (2015). The TUBIN mission - wildfire detection using nanosatellites. presented at the 64th German Aerospace Congress


Barschke, Merlin F. and Gordon, Karsten (2015). Enabling flexible payload management through modularity. presented at the 65th International Astronautical Congress


Gordon, Karsten and Barschke, Merlin F. (2015). A new concept of software architecture for a flexible attitude determination and control of nanosatellites. presented at the 65th International Astronautical Congress


Gordon, Karsten; Graf, Alexander; Barschke, Merlin (2015). Practical experience in using continuous integration within the development of nanosatellite software. Proceedings of the 10th IAA Symposium on Small Satellites for Earth Observation, 191–194.


Barschke, Merlin F. and Gordon, Karsten (2014). TUBiX20 - A Generic Systems Architecture for a Single Failure Tolerant Nanosatellite Platform. presented at the 65th International Astronautical Congress


Kirchner, Georg; Grunwaldt, Ludwig; Neubert, Reinhard; Koidl, Franz; Barschke, Merlin; Yoon, Zizung and Fiedler, Hauke (2013). Laser Ranging to Nano-Satellites in LEO Orbits: Plans, Issues, Simulations. presented at the 18th International Workshop on Laser Ranging


Barschke, Merlin F.; Yoon, Zizung and Brieß, Klaus (2013). TUBiX - The TU Berlin Innovative Next Generation Nanosatellite Bus. presented at the 64th International Astronautical Congress


Baumann, Frank; Ballheimer, Walter; Großekatthöfer, Karsten; Nitzschke, Christian and Brieß, Klaus (2013). TUBIN - A Nanosatellite Mission with Infrared Imager Payload. presented at the Small Satellites Systems and Services Symposium


Baumann, Frank; Ballheimer, Walter; Großekatthöfer, Karsten; Nitzschke, Christian and Brieß, Klaus (2012). TUBIN - A Novel Nanosatellite Bus with Uncooled Infrared Imager Payload. presented at the 61th German Aerospace Congress


Barschke, Merlin F.; Baumann, Frank; Ballheimer, Walter; Großekatthöfer, Karsten; Nitzschke, Christian and Brieß, Klaus (2013). TUBiX20 - The novel Nanosatellite Bus of TU Berlin. Proceedings of the 9th IAA Symposium on Small Satellites for Earth Observation, 93-96.


Barschke, Merlin F.; Brieß, Klaus and Renner; Udo (2016). Twenty-five years of satellite development at Technische Universität Berlin. presented at the Small Satellites Systems and Services Symposium


Barschke, Merlin F. and Weise, Jana (2015). Verification of an extendable boom system for nanosatellite applications in microgravity environment. Proceedings of the 10th IAA Symposium on Small Satellites for Earth Observation, 301-304.


Barschke, Merlin F.; Gordon, Karsten; von Keiser, Philip and Starke, Mario (2016). FDIR approach of a modular satellite platform architecture. presented at the 66th International Astronautical Congress


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Chair of Space Technology

Prof. Dr.-Ing. Klaus Brieß
+49 30 314-21339
Room F 515

Grant No.:

50 RM 1102