Difference between revisions of "TU Wien"
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Owing to an intense collaboration with the IT-departments of [[EODC]] and '''TU Wien''', the remote sensing research group is experienced in handling large earth observation data volumes and developing software packages for automatic processing. | Owing to an intense collaboration with the IT-departments of [[EODC]] and '''TU Wien''', the remote sensing research group is experienced in handling large earth observation data volumes and developing software packages for automatic processing. | ||
− | + | ===Related expertise=== | |
− | The experts of TU Wien contribute to the consortium an in-depth knowledge of SAR data processing, building upon a long-standing experience with the European Envisat and | + | The experts of '''TU Wien''' contribute to the consortium an in-depth knowledge of SAR data processing, building upon a long-standing experience with the European [https://earth.esa.int/eogateway/missions/envisat Envisat] and [https://sentinel.esa.int/web/sentinel/missions/sentinel-1 Sentinel-1] missions. <br> |
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+ | With its SAR team focusing on Level-1 data ingestion, processing, aggregation, and the retrieval of geophysical variables feeding into Level-2 products, a strong scientific and technical competence on Sentinel-1 IW and EW mode data has been gained. The pre-processing engine of the SAR Geophysical Retrieval Toolbox (SGRT) – which dates back to 2007 and has been constantly enhanced and adapted – features a near-real-time-capable (NRT) workflow especially tailored for Sentinel-1 input. It integrates the state-of-the-art geocoding and calibration functionalities of [https://step.esa.int/main/toolboxes/snap/ ESA’S SNAP Toolbox], as well as an in-house-developed border-noise-removal algorithm and several automated routines for quality-control, resampling and gridding. With the perspective of Big Data entering remote sensing, the spatiotemporal datacube for raster data based on the Equi7Grid was created in 2014 and is hosted now by [[EODC]], allowing a geometric accurate and efficient handling and storage of massive satellite data volumes. <br> | ||
+ | In addition to the two other thematic key variables soil moisture and vegetation, the mapping and monitoring of water bodies has been the central topic of several research and operation projects of TU Wien. Thanks to the possibility of directly accessing the Sentinel-1 datacube and analysing the full time series of SAR backscatter at pixel level, the delineation of permanent and seasonal water body extent can be achieved on a global scale. <br> | ||
+ | Most recent research has been conducted on the analysis of temporal and spatial signatures of water bodies to estimate flood frequencies and to detect flood events. | ||
+ | ===Related experience=== | ||
+ | The microwave remote sensing (MRS) research group of '''TU Wien''' has been part of several operational and thematic-related projects: | ||
+ | * [https://land.copernicus.eu/global/index.html Copernicus Global Land Service] (GIO-GL, C-GLOPS1, C-GLOPS2; 2013-ongoing): NRT provision of a portfolio of bio-geophysical products on the status and evolution of land surface at global scale, using the most suitable satellite sensors including the Sentinel fleet. As project partner, TU Wien is responsible for the soil moisture product and processing chain development, datacube design, and the continuous scientific quality evaluation | ||
+ | * [http://hsaf.meteoam.it/ HSAF] (CDOP 1-3; 2007-ongoing): NRT and CDR (climate data record) provision of operational data on hydrological variables (precipitation, soil moisture, snow parameters) from EUMETSAT satellites. As project partner, '''TU Wien''' is responsible for the soil moisture product and processing chain development, and the continuous scientific quality evaluation | ||
+ | * EC H2020 [https://www.i-react.eu/ I-REACT] (2016-19): Project to increase the resilience of European citizens and assets to natural disaster by integrating existing local and European services into a platform that supports the entire emergency management cycle. '''TU Wien'''’s role as project partner was to develop and demonstrate an on-demand NRT Sentinel-1 flood mapping service | ||
+ | * [http://due.esrin.esa.int/page_project123.php ESA Globwetland] (2015-17): A large Earth Observation application project to develop and demonstrate an open source software toolbox for the end-to-end processing of a large portfolio of EO products and the subsequent derivation of spatial and temporal indicators on wetland status and trends, from local to basin scales. TU Wien was a sub-contractor to GeoVille, producing Sentinel-1 water body maps for about 20 % of the African land surface area based on Sentinel-1 time service | ||
+ | * [https://land.copernicus.eu/pan-european/high-resolution-layers/water-wetness CLMS HRL Water & Wetness] (2017-22): This service provided high-resolution water and wetland layers based on multiple input data for Europe. [[TU Wien]] was a sub-contractor to [[GeoVille]], producing water body maps for Europe based on Sentinel-1 time series | ||
+ | * [https://sentinel.esa.int/documents/247904/349449/S1_SP-1322_1.pdf ESA Sentinel-1 Global Backscatter Model] (2018-19): The development and production of a global 10 m Sentinel-1 backscatter model. This involved pre-processing the entire global Sentinel-1 data record for the years 2016 and 2017, applying strict quality control procedures and the selection of suitable backscatter models | ||
+ | * [https://projekte.ffg.at/projekt/2975628 FFG Austrian Data Cube] (2018-20): This project delivered a data cube system for Austria with the goal to remove technological barriers for the use of Copernicus data in Austria. '''TU Wien''' was responsible for the definition and production of the Sentinel-1 data cube to the ''Acube''. | ||
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More info on [https://www.tuwien.at/ TU Wien] official website | More info on [https://www.tuwien.at/ TU Wien] official website |
Revision as of 15:43, 19 April 2021
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The Technische Universität Wien (TU Wien) was founded in 1815 as k. k. polytechnisches Institut, making it the first University of Technology in today’s German speaking area.
TU Wien’s microwave remote sensing (MRS) research group, which contributes to this consortium, is part of the Department for Geodesy and Geoinformation (GEO). The department conducts research and teaching in observing, modelling, and communicating geoscientific states and processes, and has a staff of about 100. The MRS focuses on the physical modelling of radar backscatter and the retrieval of soil moisture, water bodies, vegetation, and other geophysical variables from scatterometer and Synthetic Aperture Radar (SAR) data.
Their scientific work has paved the ground for several operational soil moisture data services for ASCAT and Sentinel-1 in cooperation with national (e.g. ZAMG, EODC) and international (e.g. EUMETSAT, ECMWF) partners. These data services have been developed and operated within the framework of EUMETSAT’s Satellite Application Facility in Support to Operational Hydrology and Water Management (HSAF), the Copernicus Global Land and Climate Change Services (CGLS and C3S), and the ESA Climate Change Initiative (CCI).
In addition to the scientific output in numerous peer-reviewed research articles and conference contributions, most scientific algorithms and satellite data management software developed by the MRS team for scatterometer and SAR data analysis are implemented in various Python libraries, several of which are available as open source on https://github.com/TUW-GEO. The software libraries for ASCAT and Sentinel-1 are designed to allow global and operational processing, and have been deployed on desktop computers, operational systems, cloud platforms and high performance computing environments. The MRS group has led and participated in international research projects funded by ESA and the European Commission.
TU Wien has been one of the initiators and co-founders of the EODC. In addition to being able to use EODC’s Petabyte-scale storage with its stored Sentinel EO data (Sentinel-1: Globally all available GRD data; Sentinel-2: Globally all available L1C data), its cloud platform, and TU Wien’s supercomputing facilities (Vienna Scientific Cluster), the TU Wien MRS group has powerful in-house processing capabilities: they operate an 800 TB Fileserver with a 1 PB robotic tape library, 12 top end working stations, several terminal servers, approximately 80 workstations and a back-up server. The internal network is based upon a Windows Active Directory Domain.
Owing to an intense collaboration with the IT-departments of EODC and TU Wien, the remote sensing research group is experienced in handling large earth observation data volumes and developing software packages for automatic processing.
Related expertise
The experts of TU Wien contribute to the consortium an in-depth knowledge of SAR data processing, building upon a long-standing experience with the European Envisat and Sentinel-1 missions.
With its SAR team focusing on Level-1 data ingestion, processing, aggregation, and the retrieval of geophysical variables feeding into Level-2 products, a strong scientific and technical competence on Sentinel-1 IW and EW mode data has been gained. The pre-processing engine of the SAR Geophysical Retrieval Toolbox (SGRT) – which dates back to 2007 and has been constantly enhanced and adapted – features a near-real-time-capable (NRT) workflow especially tailored for Sentinel-1 input. It integrates the state-of-the-art geocoding and calibration functionalities of ESA’S SNAP Toolbox, as well as an in-house-developed border-noise-removal algorithm and several automated routines for quality-control, resampling and gridding. With the perspective of Big Data entering remote sensing, the spatiotemporal datacube for raster data based on the Equi7Grid was created in 2014 and is hosted now by EODC, allowing a geometric accurate and efficient handling and storage of massive satellite data volumes.
In addition to the two other thematic key variables soil moisture and vegetation, the mapping and monitoring of water bodies has been the central topic of several research and operation projects of TU Wien. Thanks to the possibility of directly accessing the Sentinel-1 datacube and analysing the full time series of SAR backscatter at pixel level, the delineation of permanent and seasonal water body extent can be achieved on a global scale.
Most recent research has been conducted on the analysis of temporal and spatial signatures of water bodies to estimate flood frequencies and to detect flood events.
Related experience
The microwave remote sensing (MRS) research group of TU Wien has been part of several operational and thematic-related projects:
- Copernicus Global Land Service (GIO-GL, C-GLOPS1, C-GLOPS2; 2013-ongoing): NRT provision of a portfolio of bio-geophysical products on the status and evolution of land surface at global scale, using the most suitable satellite sensors including the Sentinel fleet. As project partner, TU Wien is responsible for the soil moisture product and processing chain development, datacube design, and the continuous scientific quality evaluation
- HSAF (CDOP 1-3; 2007-ongoing): NRT and CDR (climate data record) provision of operational data on hydrological variables (precipitation, soil moisture, snow parameters) from EUMETSAT satellites. As project partner, TU Wien is responsible for the soil moisture product and processing chain development, and the continuous scientific quality evaluation
- EC H2020 I-REACT (2016-19): Project to increase the resilience of European citizens and assets to natural disaster by integrating existing local and European services into a platform that supports the entire emergency management cycle. TU Wien’s role as project partner was to develop and demonstrate an on-demand NRT Sentinel-1 flood mapping service
- ESA Globwetland (2015-17): A large Earth Observation application project to develop and demonstrate an open source software toolbox for the end-to-end processing of a large portfolio of EO products and the subsequent derivation of spatial and temporal indicators on wetland status and trends, from local to basin scales. TU Wien was a sub-contractor to GeoVille, producing Sentinel-1 water body maps for about 20 % of the African land surface area based on Sentinel-1 time service
- CLMS HRL Water & Wetness (2017-22): This service provided high-resolution water and wetland layers based on multiple input data for Europe. TU Wien was a sub-contractor to GeoVille, producing water body maps for Europe based on Sentinel-1 time series
- ESA Sentinel-1 Global Backscatter Model (2018-19): The development and production of a global 10 m Sentinel-1 backscatter model. This involved pre-processing the entire global Sentinel-1 data record for the years 2016 and 2017, applying strict quality control procedures and the selection of suitable backscatter models
- FFG Austrian Data Cube (2018-20): This project delivered a data cube system for Austria with the goal to remove technological barriers for the use of Copernicus data in Austria. TU Wien was responsible for the definition and production of the Sentinel-1 data cube to the Acube.
More info on TU Wien official website
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