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Publications about 'Ground-Based SAR (GB-SAR)'
Articles in journal or book chapters
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R. Iglesias,
A. Aguasca,
X. Fabregas,
J. J. Mallorqui,
D. Monells,
C. Lopez-Martinez,
and L. Pipia.
Ground-Based Polarimetric SAR Interferometry for the Monitoring of Terrain Displacement Phenomena - Part I: Theoretical Description.
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,
8(3):980-993,
March 2015.
Keyword(s): geomorphology,
radar interferometry,
remote sensing by radar,
synthetic aperture radar,
terrain mapping,
GB-InSAR techniques,
GB-SAR sensors,
PSI processing chains,
PSI techniques,
PolInSAR algorithms,
PolSAR measurements,
SLFMCW GB-SAR system,
SLFMCW signals,
Universitat Politecnica de Catalunya,
acquisition time,
classical single-polarimetric performances,
coherent pixels technique,
ground displacement episodes,
ground displacement phenomena,
ground-based SAR interferometry,
ground-based polarimetric SAR interferometry,
ground-based synthetic aperture radar,
persistent scatterer interferomerty,
polarimetric RiskSAR sensor,
polarimetric SAR measurements,
stepped linear frequency modulated continuous wave,
terrain displacement phenomena monitoring,
troposphere medium decorrelation,
troposphere temporal homogeneity,
vector network analyzers,
Atmospheric measurements,
Interferometry,
Monitoring,
Sensor phenomena and characterization,
Synthetic aperture radar,
Differential synthetic aperture radar (SAR) interferometry (DInSAR),
GB-SAR interferometry (GB-InSAR),
frequency modulated continuous wave (FMCW) radar,
ground-based SAR (GB-SAR),
persistent scatterer interferomerty (PSI),
polarimetric SAR interferometry (PolInSAR),
stepped linear FMCW (SLFMCW) radar.
[Abstract]
[bibtex-entry]
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R. Iglesias,
A. Aguasca,
X. Fabregas,
J. J. Mallorqui,
D. Monells,
C. López-Martěnez,
and L. Pipia.
Ground-Based Polarimetric SAR Interferometry for the Monitoring of Terrain Displacement Phenomena --Part II: Applications.
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing,
8(3):994-1007,
March 2015.
Keyword(s): geomorphology,
geophysical techniques,
radar interferometry,
remote sensing by radar,
synthetic aperture radar,
Andorran Pyrenees,
El Forn de Canillo,
GB-InSAR techniques,
GB-SAR sensors,
Remote Sensing Laboratory,
RiskSAR sensor,
Spain,
Universitat Politecnica de Catalunya,
X-band,
cost-effective solution,
ground displacement phenomena,
ground-based polarimetric SAR interferometry,
ground-based synthetic aperture radar interferometry,
in-field data,
infrastructure safety,
landslide monitoring,
people safety,
terrain displacement phenomena monitoring,
urban landslides,
urban subsidence,
urban subsidence monitoring,
zero-baseline configuration,
Coherence,
Interferometry,
Monitoring,
Sensitivity,
Synthetic aperture radar,
Terrain factors,
Vectors,
Differential synthetic aperture radar (SAR) interferometry (DInSAR),
displacement monitoring,
frequency modulated continuous wave (FMCW) radar,
ground-based SAR (GB-SAR),
ground-based SAR interferometry (GBInSAR),
persistent scatterer interferometry (PSI),
polarimetric SAR interferometry (PolInSAR),
steepest linear frequency modulated continuous wave (SLFMCW) radar.
[bibtex-entry]
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R. Iglesias,
X. Fabregas,
A. Aguasca,
J. J. Mallorqui,
C. Lopez-Martinez,
J. A. Gili,
and J. Corominas.
Atmospheric Phase Screen Compensation in Ground-Based SAR With a Multiple-Regression Model Over Mountainous Regions.
IEEE_J_GRS,
52(5):2436-2449,
May 2014.
Keyword(s): GB-SAR,
ground-based SAR,
terrestrial SAR,
geophysical techniques,
radar polarimetry,
synthetic aperture radar,
AD 2010 10 to 2011 10,
Andorran Pyrenees,
El Forn de Canillo,
GB-SAR sensor,
Universitat Politecnica de Catalunya,
X-band,
atmospheric fluctuations,
atmospheric phase screen compensation process,
differential-SAR-interferometry applications,
ground-based SAR data,
mountainous environment,
mountainous regions,
multiple-regression model,
multitemporal GB-SAR measurements,
one-year measurement campaign,
polarimetric SAR data,
steep topography effect,
strong rain episodes,
zero-baseline fully polarimetric data sets,
Atmospheric phase screen (APS) compensation,
differential synthetic aperture radar (SAR) interferometry (DInSAR),
ground-based SAR (GB-SAR),
polarimetry,
steep topography.
[bibtex-entry]
Conference articles
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F. Viviani,
A. Michelini,
L. Mayer,
and F. Conni.
IBIS-ArcSAR: an Innovative Ground-Based SAR System for Slope Monitoring.
In Proc. IEEE Int. Geosci. Remote Sens. Symp.,
pages 1348-1351,
July 2018.
Keyword(s): digital elevation models,
geomorphology,
geophysical equipment,
mining,
radar imaging,
radar interferometry,
synthetic aperture radar,
vertical height,
digital elevation model,
computationally fast interferometric processing algorithm,
simple fast interferometric processing algorithm,
Arc-scanning SAR systems,
2D SAR Image,
Multiple input Multiple Output,
MIMO Radar channels,
recent IBIS-ArcSAR product,
acquisition time,
IBIS-Rover product,
horizontal coverage,
IDS GeoRadar company,
IBIS-FM product,
elliptical shape,
azimuth coverage,
relevant limits,
open pit mines application,
open pit mines scenarios,
efficient tool,
GB-SAR,
decade Ground-Based SAR technology,
slope monitoring,
innovative ground-based SAR system,
time 1.0 min,
Synthetic aperture radar,
Azimuth,
Image reconstruction,
Monitoring,
Focusing,
Two dimensional displays,
Groun d-based Synthetic Aperture Radar,
Interferometry,
MIMO Radar,
Digital Elevation Models,
Radar Imaging.
[Abstract]
[bibtex-entry]
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M. Faisal,
M. A. H. Chowdhury,
M. A. I. Bhuyan,
N. H. M. Bhuyan,
and A. Matin.
Development of a polarimetric interferometric GB-SAR and perform measurement for a fixed target.
In Proc. Computer and Communication Engineering (ECCE) 2017 Int. Conf. Electrical,
pages 285-289,
February 2017.
Keyword(s): GB-SAR,
ground-based SAR,
terrestrial SAR,
horn antennas,
radar antennas,
radar interferometry,
radar target recognition,
synthetic aperture radar,
SAR system,
antenna positioner,
building vehicles,
data compression,
double ridge guide horn antenna,
fixed target,
ground vehicles,
ground-based synthetic aperture radar system,
innovative monitoring technique,
perform measurement,
polarimetric & interferometric GB-SAR,
vector network analyzer,
Antenna measurements,
Apertures,
Frequency-domain analysis,
Image reconstruction,
Monitoring,
Synthetic aperture radar,
Time-domain analysis,
Global Backprojection (GBP),
Ground-Based SAR (GB-SAR),
Interferometry,
Low loss-high frequency cable,
Vector Network Analyzer (VNA).
[bibtex-entry]
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T. Hamasaki,
L. Ferro-Famil,
E. Pottier,
and M. Sato.
Applications of polarimetric interferometric ground-based SAR (GB-SAR) system to environment monitoring and disaster prevention.
In Proc. EURAD 2005. European Radar Conf,
pages 29-32,
October 2005.
Keyword(s): GB-SAR,
ground-based SAR,
terrestrial SAR,
disasters,
environmental management,
monitoring,
radar polarimetry,
radiowave interferometry,
remote sensing by radar,
synthetic aperture radar,
coniferous tree,
differential interferometry,
disaster prevention,
environment monitoring,
natural phenomena,
polarimetric interferometric ground-based SAR,
resources management,
scattering mechanisms,
Aperture antennas,
Frequency,
Information analysis,
Interferometry,
Optical scattering,
Radar detection,
Radar scattering,
Remote monitoring,
Spaceborne radar,
Synthetic aperture radar.
[bibtex-entry]
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Please note that access to full text PDF versions of papers is restricted to the Chair of Earth Observation and Remote Sensing, Institute of Environmental Engineering, ETH Zurich.
Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to
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This collection of SAR literature is far from being complete. It is rather a collection of papers which I store in my literature data base. Hence, the list of publications under PUBLICATIONS OF AUTHOR'S NAME
should NOT be mistaken for a complete bibliography of that author.
Last modified: Fri Feb 24 14:23:32 2023
Author: Othmar Frey, Earth Observation and Remote Sensing, Institute of Environmental Engineering, Swiss Federal Institute of Technology - ETH Zurich .
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