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Hufgard, Fabian; Lengowski, Michael; Barschke, Merlin F.; Harmansa, Nicholas; Klinkner, Sabine and Brieß, Klaus (2018). Preliminary study of an academic micro-satellite formation mission for meteoroid trajectories determination and dust mass flow measurement [18]. Proceedings of the Small Satellites Systems and Services Symposium


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Grunwaldt, Ludwig; Neubert, Rüdiger and Barschke, Merlin F. (2016). Optical tests of a large number of small COTS cubes [19]. Proceedings of the 20th International Workshop on Laser Ranging


Großhans, J.; Vu, Quan H.; Balke A., Lohse A.; Maaß, A.; Noack, D.; Buscher, M.; Brieß, K. and Voigt, S. (2018). SALSAT - An innovative nanosatellite for spectrum analysis based on SDR technology [20]. presented at the 69th International Astronautical Congress


Großhans, Jens; Buscher, Martin; Vu, Huu Q.; Balke, Alexander; Maaß, Alexander; Lohse, Alexander (2018). SALSA - A novel Spectrum Analyzer board for LEO Satellite Allocations based on SDR technology [21]. 2018 AIAA SPACE and Astronautics Forum and Exposition


Karsten Großekatthöfer (2010). Wieder verwendbare Modelle für die virtuelle wissensbasierte Produktentwicklung - Abschlussbericht [22].


Grosshans, Jens and Barschke, Merlin F. (2017). Mission concept of a satellite constellation for global wildfire monitoring [23]. Proceedings of AIAA SPACE


Sebastian Grau and Sascha Kapitola and Sascha Weiß and Daniel Noack (2019). Control of an Over-Actuated Spacecraft using a Combination of a Fluid Actuator and Reaction Wheels [24]. 70th International Astronautical Congress (IAC)


Sebastian Grau and Daniel Noack and Abdurrahman Öz and Rolf Thomasius and Klaus-Dieter Lang and Klaus Brieß (2013). Multifunktionale Integration von Komponenten für Pikosatelliten - Ein Schritt auf dem Weg zu Mikrosystemen im Satellitenbereich [25]. 62. Deutscher Luft- und Raumfahrtkongress. DGLR.


Sebastian Grau and Daniel Noack and Klaus Brieß (2015). An angular momentum ring storage device prototype for CubeSats based on a liquid metal actuator [26]. Proceedings of the 66th International Astronautical Congress (IAC)


Sebastian Grau and Daniel Noack and Klaus Brieß (2015). Rapid prototyping of a combined channel/pump structure for liquid metal actuators used as angular momentum storage device for picosatellites [27]. Proceedings of the 66th International Astronautical Congress (IAC)


Sebastian Grau and Roland Henning and Daniel Noack and Klaus Brieß (2015). Labormuster eines fluiddynamischen Aktuators für Satelliten der CubeSat-Klasse [28]. 64. Deutscher Luft- und Raumfahrtkongress. DGLR.


Sebastian Grau and Isabell Suchantke and Klaus Brieß (2017). A comprehensive study on magnetic actuator design for CubeSat missions [29]. Proceedings of the 68th International Astronautical Congress (IAC)


Sebastian Grau and Christian Tschoban and Klaus-Dieter Lang and Klaus Brieß (2017). Highly Integrated Communications, Power Management, and Attitude Determination and Control Side Panel for CubeSats [30]. Proceedings of the 68th International Astronautical Congress (IAC)


Sebastian Grau and Leonard Kobow and Ferdinand Fürstenau (2017). Investigation of Redundancy Strategies in Fluid-Dynamic Attitude Control [31]. Published in proceedings of the 68th International Astronautical Congress (IAC)


Gordon, Karsten and Barschke, Merlin F. (2015). A new concept of software architecture for a flexible attitude determination and control of nanosatellites [32]. presented at the 65th International Astronautical Congress


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