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Trajectory based 3D fragment tracking in hypervelocity impact experiments

 
: Watson, Erkai; Maas, Hans-Gerd; Schäfer, Frank; Hiermaier, Stefan

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Volltext ()

Remondino, F.:
ISPRS TC II Mid-term Symposium "Towards Photogrammetry 2020" : 4–7 June 2018, Riva del Garda, Italy
Riva del Garda: ISPRS, 2018 (The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences XLII-2)
S.1175-1181
Symposium "Towards Photogrammetry 2020" <2018, Riva del Garda>
Englisch
Konferenzbeitrag, Elektronische Publikation
Fraunhofer EMI ()
hypervelocity impact; space debris; fragmentation; particle tracking; trajectory fitting; stereo matching

Abstract
Collisions between space debris and satellites in Earth’s orbits are not only catastrophic to the satellite, but also create thousands of newfragments, exacerbating the space debris problem. One challenge in understanding the space debris environment is the lack of data onfragmentation and breakup caused by hypervelocity impacts. In this paper, we present an experimental measurement technique capableof recording 3D position and velocity data of fragments produced by hypervelocity impact experiments in the lab. The experimentalsetup uses stereo high-speed cameras to record debris fragments generated by a hypervelocity impact. Fragments are identified andtracked by searching along trajectory lines and outliers are filtered in 4D space (3D + time) with RANSAC. The method is demonstratedon a hypervelocity impact experiment at 3.2 km/s and fragment velocities and positions are measured. The results demonstrate thatthe method is very robust in its ability to identify and track fragments from the low resolution and noisy images typical of high-speedrecording.

: http://publica.fraunhofer.de/dokumente/N-497031.html