Details

Title

VIBES: Visionary Ingenuity Boosting European Spacecraft. Managing microvibrations for the future of spaceflight

Journal title

Archive of Mechanical Engineering

Yearbook

2023

Volume

vol. 70

Issue

No 2

Authors

Affiliation

Garcia, Antonio : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Gust, Tim : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Basata, Enes : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Gersting, Tim : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Deka, Michal : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Thiele, Sven : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Salah, Mohammad : City University of Applied Sciences Bremen, Institute of Aerospace Technologies, Bremen, Germany ; Koerner, Matias Bestard : German Aerospace Center – DLR, Institute of Space Systems. Guidance, Navigation and Control Systems. Bremen, Germany ; Runte, Torben : OHB System AG, Bremen, Germany ; Gonzalez, Miguel : OHB System AG, Bremen, Germany

Keywords

microvibrations ; isolation ; satelite archtectures ; metrology ; control

Divisions of PAS

Nauki Techniczne

Coverage

183-197

Publisher

Polish Academy of Sciences, Committee on Machine Building

Bibliography

[1] ECSS. Micro-vibrations, Space Engineering: Spacecraft Mechanical Loads Analysis Handbook, ECSS-E-HB-32-26A, 2013.
[2] A. Bronowicki. Forensic investigation of reaction wheel nutation on isolator. In 49th AIAA Structures, Structural Dynamics, and Materials Conference, Schaumburg, IL, USA, 7-10 April 2008. doi: 10.2514/6.2008-1953
[3] T. Runte, Z. Perez, and M. Baro. Microvibration engineering – a key to high-performance space missions. In 70th International Astronautical Congress, Washington, D.C., USA, 21-25 Oct. 2019.
[4] C.J. Dennehy. A survey of reaction wheel disturbance modeling approaches for spacecraft line-of-sight jitter performance analysis. In Proceeding of 18 European Space Mechanisms and Tribology Symposium, Munich, Germany, 18-20 Sept. 2019.
[5] H. Heimel. Spacewheel microvibration-sources, appearance, countermeasures. In Proceedings of the 8th International ESA Conference on Guidance & Navigation Control Systems, Karlove Vary, Czech Republic, 5-10 June 2011.
[6] C. Dennehy and O.S. Alvarez-Salazar. Spacecraft micro-vibration: A survey of problems, experiences, potential solutions, and some lessons learned. Technical report, 2018.
[7] M. Manso and M. Bezzeghoud. On-site sensor noise evaluation and detectability in low cost accelerometers. In Proceedings of the 10th International Conference on Sensor Networks – SENSORNETS, pages 100–106. [Online], 9-10 Febr. 2021. doi: 10.5220/0010319001000106.
[8] G. Heinzel, A. Rudiger, and R. Schilling. Spectrum and spectral density estimation by the Discrete Fourier Transform (DFT), including a comprehensive list of window functions and some new flat-top windows. Technical report, 2002.
[9] A. Wiebe. Entwicklung eines Teststandes zur Messung von Mikrovibrationen inklusive Auslegung eines Datenaufnahmesystems. Technical report, 2021.

Date

5.04.2023

Type

Article

Identifier

DOI: 10.24425/ame.2023.144819
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