Full name Familienname, Vorname
Matgen, Patrick
 
Main Affiliation Organisations­zuordnung
 

Results 1-15 of 15 (Search time: 0.003 seconds).

PreviewAuthors / EditorsTitleTypeIssue Date
1Zhao-2022-IEEE Transactions on Geoscience and Remote Sensing-vor.pdf.jpgZhao, Jie ; Li, Yu ; Matgen, Patrick ; Pelich, Ramona ; Hostache, Renaud ; Wagner, Wolfgang ; Chini, Marco Urban-Aware U-Net for Large-Scale Urban Flood Mapping Using Multitemporal Sentinel-1 Intensity and Interferometric CoherenceArticle Artikel 2022
2Zhao, Jie ; Chini, Marco ; Matgen, Patrick ; Hostache, Renaud ; Pelich, Ramona ; Wagner, Wolfgang The influence of the incidence angle over the backscattering values for SAR-based flood mappingPräsentation Presentation2018
3Brocca, Luca ; Melone, Florisa ; Moramarco, Tommaso ; Matgen, Patrick ; Wagner, Wolfgang Reliable validation of soil moisture estimates from ASCAT and AMSR-E sensors through four different approachesKonferenzbeitrag Inproceedings2011
4Corato, Giovanni ; Matgen, Patrick ; Fenicia, Fabrizio ; Schlaffer, Stefan On the data assimilation of remote sensing derived soil moisture in a hydrological modelKonferenzbeitrag Inproceedings2013
5Zhao, Jie ; Chini, Marco ; Matgen, Patrick ; Hostache, Renaud ; Pelich, Ramona ; Ali, Iftikhar ; Wagner, Wolfgang Large-Scale Flood Record From ENVISAT Archive Using Change Detection: UK as a Test CasePräsentation Presentation2019
6Zhao, Jie ; Chini, Marco ; Pelich, Ramona ; Matgen, Patrick ; Hostache, Renaud ; Cao, Senmao ; Wagner, Wolfgang Generating an exclusion map for SAR-based flood extent maps using Sentinel-1 time series analysisPräsentation Presentation2020
7Schlaffer, Stefan ; Hollaus, Markus ; Wagner, Wolfgang ; Matgen, Patrick Flood delineation from synthetic aperture radar data with the help of a priori knowledge from historical acquisitions and digital elevation models in support of near-real-time flood mappingKonferenzbeitrag Inproceedings2012
8Matgen, Patrick ; Martinis, Sandro ; Wagner, Wolfgang ; Freeman, Vahid ; Zeil, Peter ; McCormick, Niall Feasibility assessment of an automated, global, satellite-based flood monitoring product for the Copernicus Emergency Management ServiceBericht Report2020
9Zhao-2020-Deriving Exclusion Maps from C-Band Sar Time-Series An Addition...-vor.pdf.jpgZhao, Jie ; Chini, Marco ; Pelich, Ramona ; Matgen, Patrick ; Hostache, Renaud ; Cao, Senmao ; Wagner, Wolfgang Deriving Exclusion Maps from C-Band Sar Time-Series: An Additional Information Layer for Sar-Based Flood Extent MappingInproceedings Konferenzbeitrag 3-Aug-2020
10Zhao, Jie ; Pelich, Ramona ; Hostache, Renaud ; Matgen, Patrick ; Cao, Senmao ; Wagner, Wolfgang ; Chini, Marco Deriving exclusion maps from C-band SAR time-series in support of floodwater mappingArticle Artikel Nov-2021
11Brocca, Luca ; Hasenauer, Stefan ; de Rosnay, Patricia ; Melone, Florisa ; Moramarco, Tommaso ; Matgen, Patrick ; Martínez-Fernández, Jose ; Llorens, Pilar ; Latron, Jérôme ; Martin, Claude Consistent validation of H-SAF soil moisture satellite and model products against ground measurements for selected sites in Europe. Final report of the Associated Scientist Activity in the framework of the Satellite Application Facility on Support to Operational Hydrology and Water Management (H-SAF)Bericht Report2010
12Zhao, Jie ; Li , Yu ; Matgen, Patrick ; Pelich, Ramona ; Hostache, Renaud ; Wagner, Wolfgang ; Chini, Marco A Comparison of three deep learning-based methods for large-scale urban flood mapping using SAR dataInproceedings Konferenzbeitrag2022
13Corato, Giovanni ; Matgen, Patrick ; Fenicia, Fabrizio ; Schlaffer, Stefan ; Chini, Marco Assimilating satellite-derived soil moisture products into a distributed hydrological modelKonferenzbeitrag Inproceedings 2014
14Zhao, Jie ; Chini, Marco ; Matgen, Patrick ; Hostache, Renaud ; Pelich, Ramona ; Wagner, Wolfgang An Automatic SAR-Based Change Detection Method for Generating Large-Scale Flood Data Records: The UK as a Test CaseKonferenzbeitrag Inproceedings2019
15Zhao, Jie ; Chini, Marco ; Matgen, Patrick ; Hostache, Renaud ; Pelich, Ramona ; Wagner, Wolfgang A Fully Automatic Change Detection Method for Large-Scale Flood Record Generation using SAR Data: UK as a Test CaseKonferenzbeitrag Inproceedings2019