Unmanned aerial system (UAS)-based Synthetic Aperture Radars (SAR) represent flexible and cost-effective solutions for environmental monitoring and are a promising technology in the field of remote sensing. One of the main applications is interferometry, which allows the detection of ground displacements with high precision. Unlike ground-based or satellite systems, flight instabilities of UAS-based SAR could severely affect image processing. Specifically, the interferometric performance strongly depends on the scan length used to process the SAR image, the so-called synthetic aperture. This paper presents an experimental study on UAS-based SAR performance in terms of image quality and temporal coherence, with a focus on the role of the synthetic aperture length.
Coherence estimation of UAS-SAR images by varying the synthetic aperture in controlled and natural scenarios / Alessandra Beni, Lapo Miccinesi, Luca bigazzi, Lorenzo Pagnini, Andrea cioncolini, Massimiliano Pieraccini. - ELETTRONICO. - (2025), pp. 0-0. ( URSI Asia-Pacific Radio Science Conference) [10.46620/URSIAPRASC25/BQTV7195].
Coherence estimation of UAS-SAR images by varying the synthetic aperture in controlled and natural scenarios
Alessandra Beni;Lapo Miccinesi;Luca bigazzi;Lorenzo Pagnini;Andrea cioncolini;Massimiliano Pieraccini
2025
Abstract
Unmanned aerial system (UAS)-based Synthetic Aperture Radars (SAR) represent flexible and cost-effective solutions for environmental monitoring and are a promising technology in the field of remote sensing. One of the main applications is interferometry, which allows the detection of ground displacements with high precision. Unlike ground-based or satellite systems, flight instabilities of UAS-based SAR could severely affect image processing. Specifically, the interferometric performance strongly depends on the scan length used to process the SAR image, the so-called synthetic aperture. This paper presents an experimental study on UAS-based SAR performance in terms of image quality and temporal coherence, with a focus on the role of the synthetic aperture length.
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