Noetel, D.D.NoetelKloeppel, F.F.KloeppelSieger, S.S.SiegerJanssen, D.D.JanssenPohl, N.N.Pohl2022-03-132022-03-132016https://publica.fraunhofer.de/handle/publica/39577810.1109/GEMIC.2016.7461589Up to now, the high effort involved with airborne Synthetic Aperture Radar (SAR) systems has led to the effect that SAR image processing is mostly restricted to single images of a scene. Recent developments like the MIRANDA 35 and its matching flight platform allow for frequent revisits of the same scene at very high repeatability. MIRANDA 35 has been designed as a lightweight and compact SAR sensor for altitudes of up to 1 km while providing a resolution of 15 cm. In combination with a highly flexible ultralight aircraft we have recently obtained 28 measurements of a scene within 2 hours of flight time at very high repeatability. Two sets of flight courses, each with 7 flyovers of the reference scene and 7 of a modified change scene, are investigated here using statistical change detection methods like Informational Difference and Universal Image Quality Index.enconference paper