Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes

Tandem-L is a proposal for a highly innovative L-band SAR mission for the systematic observation of dynamic processes on the Earth's surface with hitherto unparalleled quality and resolution. Thanks to the novel imaging techniques and the vast recording capacity of up to eight terabytes/day, it...

Full description

Bibliographic Details
Main Authors: Klenk, Patrick, Moreira, Alberto, Krieger, Gerhard, Borla Tridon, Daniela, Eineder, Michael, Hajnsek, Irena, Huber, Sigurd, Papathanassiou, Konstantinos, Parizzi, Alessandro, Reimann, Jens, Villano, Michelangelo, Younis, Marwan, De Zan, Francesco, Zink, Manfred, Zonno, Mariantonietta
Format: Conference Object
Language:English
Published: 2017
Subjects:
Satelliten-SAR-Systeme
Sea ice
Online Access:https://elib.dlr.de/111829/
https://elib.dlr.de/111829/1/EO-Summit-2017-Moreiraetal_Abstract.pdf
id ftdlr:oai:elib.dlr.de:111829
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:111829 2023-05-15T18:19:00+02:00 Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes Klenk, Patrick Moreira, Alberto Krieger, Gerhard Borla Tridon, Daniela Eineder, Michael Hajnsek, Irena Huber, Sigurd Papathanassiou, Konstantinos Parizzi, Alessandro Reimann, Jens Villano, Michelangelo Younis, Marwan De Zan, Francesco Zink, Manfred Zonno, Mariantonietta 2017-06 application/pdf https://elib.dlr.de/111829/ https://elib.dlr.de/111829/1/EO-Summit-2017-Moreiraetal_Abstract.pdf en eng https://elib.dlr.de/111829/1/EO-Summit-2017-Moreiraetal_Abstract.pdf Klenk, Patrick und Moreira, Alberto und Krieger, Gerhard und Borla Tridon, Daniela und Eineder, Michael und Hajnsek, Irena und Huber, Sigurd und Papathanassiou, Konstantinos und Parizzi, Alessandro und Reimann, Jens und Villano, Michelangelo und Younis, Marwan und De Zan, Francesco und Zink, Manfred und Zonno, Mariantonietta (2017) Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes. EO Summit 2017, 2017-06-19 - 2017-06-23, Montreal, Canada. Satelliten-SAR-Systeme Konferenzbeitrag NonPeerReviewed 2017 ftdlr 2021-11-29T00:09:10Z Tandem-L is a proposal for a highly innovative L-band SAR mission for the systematic observation of dynamic processes on the Earth's surface with hitherto unparalleled quality and resolution. Thanks to the novel imaging techniques and the vast recording capacity of up to eight terabytes/day, it will provide vital information for solving pressing scientific questions in the biosphere, geosphere, cryosphere, and hydrosphere and will make an essential contribution for a better understanding of the Earth system and its dynamics. The Tandem-L mission concept is based on the use of two SAR satellites operating in L-band with variable formation flight configurations and is distinguished by its high degree of innovation. Examples are the polarimetric SAR interferometry (PolinSAR) for measuring forest height, multi-pass coherence tomography for determining the vertical structure of vegetation and ice, the utilization of the latest digital beamforming techniques in combination with a large deployable reflector for increasing the swath width and imaging resolution, as well as the formation flight of two cooperative radar satellites with adjustable baselines for single-pass interferometry. The systematic acquisition concept is based on two imaging modes: 1) 3-D structure mode with a bistatic radar operation and 2) Deformation imaging mode with differential SAR interferometry (DinSAR), both allowing the following mission objectives to be achieved: (i) global measurement and monitoring of 3-D forest structure and biomass for a better understanding of ecosystem dynamics and the carbon cycle, (ii) systematic recording of small and large scale deformations of the Earth's surface with millimeter accuracy for earthquake, volcano and landslides research as well as risk analysis and mitigation, (iii) quantification of glacier movements, 3-D ice structure and melting processes in the polar regions for improved predictions of future sea level rise, (iv) fine scale measurements of soil moisture and its variations close to the surface for a better understanding of the water cycle and its dynamics, (v) systematic observation of coastal zones and sea ice for environmental monitoring and ship routing, (vi) monitoring of agricultural fields for crop yield forecasts, as well as, (vii) generation of highly accurate global digital terrain and surface models which form the basis for a wide range of further remote sensing applications. In this presentation, we provide an overview of the current status of this innovative mission and its main application areas and discuss challenges for calibrating such a versatile radar instrument featuring digital beamforming with a large reflector antenna. Conference Object Sea ice German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language English
topic Satelliten-SAR-Systeme
spellingShingle Satelliten-SAR-Systeme
Klenk, Patrick
Moreira, Alberto
Krieger, Gerhard
Borla Tridon, Daniela
Eineder, Michael
Hajnsek, Irena
Huber, Sigurd
Papathanassiou, Konstantinos
Parizzi, Alessandro
Reimann, Jens
Villano, Michelangelo
Younis, Marwan
De Zan, Francesco
Zink, Manfred
Zonno, Mariantonietta
Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes
topic_facet Satelliten-SAR-Systeme
description Tandem-L is a proposal for a highly innovative L-band SAR mission for the systematic observation of dynamic processes on the Earth's surface with hitherto unparalleled quality and resolution. Thanks to the novel imaging techniques and the vast recording capacity of up to eight terabytes/day, it will provide vital information for solving pressing scientific questions in the biosphere, geosphere, cryosphere, and hydrosphere and will make an essential contribution for a better understanding of the Earth system and its dynamics. The Tandem-L mission concept is based on the use of two SAR satellites operating in L-band with variable formation flight configurations and is distinguished by its high degree of innovation. Examples are the polarimetric SAR interferometry (PolinSAR) for measuring forest height, multi-pass coherence tomography for determining the vertical structure of vegetation and ice, the utilization of the latest digital beamforming techniques in combination with a large deployable reflector for increasing the swath width and imaging resolution, as well as the formation flight of two cooperative radar satellites with adjustable baselines for single-pass interferometry. The systematic acquisition concept is based on two imaging modes: 1) 3-D structure mode with a bistatic radar operation and 2) Deformation imaging mode with differential SAR interferometry (DinSAR), both allowing the following mission objectives to be achieved: (i) global measurement and monitoring of 3-D forest structure and biomass for a better understanding of ecosystem dynamics and the carbon cycle, (ii) systematic recording of small and large scale deformations of the Earth's surface with millimeter accuracy for earthquake, volcano and landslides research as well as risk analysis and mitigation, (iii) quantification of glacier movements, 3-D ice structure and melting processes in the polar regions for improved predictions of future sea level rise, (iv) fine scale measurements of soil moisture and its variations close to the surface for a better understanding of the water cycle and its dynamics, (v) systematic observation of coastal zones and sea ice for environmental monitoring and ship routing, (vi) monitoring of agricultural fields for crop yield forecasts, as well as, (vii) generation of highly accurate global digital terrain and surface models which form the basis for a wide range of further remote sensing applications. In this presentation, we provide an overview of the current status of this innovative mission and its main application areas and discuss challenges for calibrating such a versatile radar instrument featuring digital beamforming with a large reflector antenna.
format Conference Object
author Klenk, Patrick
Moreira, Alberto
Krieger, Gerhard
Borla Tridon, Daniela
Eineder, Michael
Hajnsek, Irena
Huber, Sigurd
Papathanassiou, Konstantinos
Parizzi, Alessandro
Reimann, Jens
Villano, Michelangelo
Younis, Marwan
De Zan, Francesco
Zink, Manfred
Zonno, Mariantonietta
author_facet Klenk, Patrick
Moreira, Alberto
Krieger, Gerhard
Borla Tridon, Daniela
Eineder, Michael
Hajnsek, Irena
Huber, Sigurd
Papathanassiou, Konstantinos
Parizzi, Alessandro
Reimann, Jens
Villano, Michelangelo
Younis, Marwan
De Zan, Francesco
Zink, Manfred
Zonno, Mariantonietta
author_sort Klenk, Patrick
title Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes
title_short Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes
title_full Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes
title_fullStr Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes
title_full_unstemmed Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes
title_sort tandem-l: a highly innovative bistatic sar mission for monitoring earth's dynamic processes
publishDate 2017
url https://elib.dlr.de/111829/
https://elib.dlr.de/111829/1/EO-Summit-2017-Moreiraetal_Abstract.pdf
genre Sea ice
genre_facet Sea ice
op_relation https://elib.dlr.de/111829/1/EO-Summit-2017-Moreiraetal_Abstract.pdf
Klenk, Patrick und Moreira, Alberto und Krieger, Gerhard und Borla Tridon, Daniela und Eineder, Michael und Hajnsek, Irena und Huber, Sigurd und Papathanassiou, Konstantinos und Parizzi, Alessandro und Reimann, Jens und Villano, Michelangelo und Younis, Marwan und De Zan, Francesco und Zink, Manfred und Zonno, Mariantonietta (2017) Tandem-L: A Highly Innovative Bistatic SAR Mission for Monitoring Earth's Dynamic Processes. EO Summit 2017, 2017-06-19 - 2017-06-23, Montreal, Canada.
_version_ 1766195826623774720

Similar Items