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Publications about 'Global Positioning System'

Articles in journal or book chapters

  1. Ladina Steiner, Michael Meindl, Christoph Marty, and Alain Geiger. Impact of GPS Processing on the Estimation of Snow Water Equivalent Using Refracted GPS Signals. IEEE Transactions on Geoscience and Remote Sensing, 58(1):123-135, January 2020. Keyword(s): Global Positioning System, remote sensing, snow, Swiss Alps, GPS processing parameters, SWE estimation performance, elevation-dependent weighting scheme, elevation cutoff angles, sub-snow GPS, temporal reliability, systematic overview, seasons time period, GPS refractometry, sub-snow global positioning system antennas, snowpack modeling, remote sensing data, snow hydrological monitoring, weather conditions, continuous SWE quantification, automated SWE quantification, situ snow water equivalent estimation, global navigation satellite system antennas, refracted GPS signals, daily estimates, hourly SWE estimation, Global Positioning System, Snow, Estimation, Global navigation satellite system, Antennas, Satellites, Delays, Global navigation satellite system (GNSS), global positioning system (GPS), GPS refractometry, snow, snow water equivalent (SWE), sub-snow. [Abstract] [bibtex-entry]


  2. Jan Torgrimsson, Patrick Dammert, Hans Hellsten, and Lars M. H. Ulander. SAR Processing Without a Motion Measurement System. IEEE Transactions on Geoscience and Remote Sensing, 57(2):1025-1039, February 2019. Keyword(s): SAR Processsing, Backprojection, Fast-factorized Back-projection, FFBP, Time-Domain Back-Projection, TDBP, Azimuth Focusing, Motion Compensation, MoComp, autofocus, geometric autofocus, radar imaging, synthetic aperture radar, synthetic aperture radar image, very high frequency band, base-2 fast factorized back-projection, track velocity error, CARABAS II system, ultrawideband data sets, innovative autofocus concept, subaperture pair, free geometry parameters, back-projection formulation, factorized geometrical autofocus, SAR processing, FGA algorithm, VHF-band, wavelength-resolution SAR image, FGA images, linear equidistant track, basic geometry model, Geometry, Synthetic aperture radar, Global Positioning System, Tracking, Apertures, Radar tracking, Autofocus, back-projection (BP), factorized geometrical autofocus (FGA), Synthetic Aperture Radar (SAR). [Abstract] [bibtex-entry]


  3. Elvira Musico, Claudio Cesaroni, Luca Spogli, John P. Merryman Boncori, De Franceschi Giorgiana, and Roberto Seu. The Total Electron Content From InSAR and GNSS: A Midlatitude Study. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 11(5):1725-1733, May 2018. Keyword(s): SAR Processing, Ionosphere, Global Positioning System, atmospheric techniques, radar interferometry, rain, remote sensing by radar, satellite navigation, synthetic aperture radar, ALOS-PALSAR, GNSS experimental measurements, GNSS receivers, InSAR images, L-band InSAR, RING network, Rete Integrata Nazionale GPS network, TEC variability, advanced land observing satellite, array type L-band synthetic aperture radar, correlation coefficient, dense network, global navigation satellite system receivers, interferometric phase, interferometric synthetic aperture radar, ionospheric information, midlatitude study, night-time case studies, reference true ionospheric TEC, total electron content, tropospheric contribution, Azimuth, Correlation, Earth, Global navigation satellite system, Ionosphere, Receivers, Synthetic aperture radar, Global positioning system, ionosphere, synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  4. Stephan Palm, Rainer Sommer, and Uwe Stilla. Mobile Radar Mapping --- Subcentimeter SAR Imaging of Roads. IEEE Transactions on Geoscience and Remote Sensing, 56(11):6734-6746, November 2018. Keyword(s): SAR Processing, Azimuth Focusing, FMCW, Back Projection, Time-Domain Back-Projection, TDBP, FFBP, Fast-Factorized Back-Projection, CW radar, digital elevation models, FM radar, geophysical image processing, Global Positioning System, image reconstruction, image resolution, radar imaging, remote sensing by radar, synthetic aperture radar, mobile radar mapping-subcentimeter SAR imaging, ultrahigh-resolution synthetic aperture radar data, related theoretical background, imaging method, backprojection techniques, potential errors, correct geometry, imaging quality, point target simulations, suitable digital elevation model, illuminated scene, conventional roads, mobile mapping scenarios, SAR images, output data, reference targets, GPS-INS data, conventional 3-D Point Cloud Software, geometric distortions, subcentimeter SAR imaging, active frequency-modulated continuous wave radar system, frequency 300.0 GHz, Synthetic aperture radar, Sensors, Radar imaging, Roads, Laser radar, Geometry, Millimeter wave radar, radar resolution, radar signal processing, road vehicle radar. [Abstract] [bibtex-entry]


  5. Ladina Steiner, Michael Meindl, Charles Fierz, and Alain Geiger. An assessment of sub-snow GPS for quantification of snow water equivalent. The Cryosphere, 12(10):3161-3175, 2018. Keyword(s): GNSS, GPS, Snow-water equivalent, SWE, Submerged antennas. [Abstract] [bibtex-entry]


  6. Giorgio Gomba, Fernando Rodriguez Gonzalez, and Francesco De Zan. Ionospheric Phase Screen Compensation for the Sentinel-1 TOPS and ALOS-2 ScanSAR Modes. IEEE_J_GRS, 55(1):223-235, January 2017. Keyword(s): SAR Processing, split-spectrum, split-spectrum interferometry, split-band, split-band interferometry, ionospheric disturbances, total electron content (atmosphere), 2015 Nepal earthquake, 2016 Taiwan earthquake, ALOS-2 ScanSAR modes, ALOS-2 interferograms, C-band interferograms, Sentinel-1 TOPS, dispersive ionospheric component, interferometric measurements, ionospheric phase screen compensation, local global positioning system measurements, split-spectrum method, synthetic aperture radar acquisitions, total electron content maps, Azimuth, Correlation, Electrostatic discharges, Ionosphere, Satellites, Synthetic aperture radar, Timing, InSAR, SAR ionospheric effects, ionosphere estimation, split-spectrum. [Abstract] [bibtex-entry]


  7. Christopher R. Mannix, David P. Belcher, and Paul S. Cannon. Measurement of Ionospheric Scintillation Parameters From SAR Images Using Corner Reflectors. IEEE Trans. Geosci. Remote Sens., 55(12):6695-6702, December 2017. Keyword(s): SAR Processin, Ionosphere, Ionospheric Scintillation, Global Positioning System, ionospheric electromagnetic wave propagation, radar imaging, radiowave propagation, synthetic aperture radar, Ascension Island, L-band, PALSAR-2, SAR PSF, SAR images, analytical theory, corner reflector, corner reflectors, ionospheric scintillation parameters, ionospheric turbulence parameters p, phase scintillation, point spread function, simultaneous GPS measurements, size 5.0 m, spotlight mode, Extraterrestrial measurements, Ionosphere, Radar tracking, Satellites, Spaceborne radar, Synthetic aperture radar, Ionosphere, ionospheric electromagnetic propagation, synthetic aperture radar. [Abstract] [bibtex-entry]


  8. Scott Hensley, D. Moller, S. Oveisgharan, T. Michel, and X. Wu. Ka-Band Mapping and Measurements of Interferometric Penetration of the Greenland Ice Sheets by the GLISTIN Radar. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 9(6):2436-2450, June 2016. Keyword(s): Global Positioning System, geophysical image processing, hydrological techniques, ice, image segmentation, meteorological radar, optical radar, radar interferometry, snow, synthetic aperture radar, topography (Earth), Antarctica, Earth environment, GLISTIN elevation measurement, GLISTIN instrument, GLISTIN radar, Greenland ice sheet, Jakobshavn glacier area, Ka-band cross-track interferometric radar, Ka-band mapping, NASA GLISTIN Ka-band interferometric radar, NASA Wallop airborne terrain mapper lidar measurement, climate change, ice cap topography, ice surface topography, image mosaic, interferometric penetration, interferometric penetration measurement, interferometric radar mapping system, kinematic GPS survey measurement, lidar, optical system, swath topographic measurement, Ice, Instruments, Laser radar, Sea measurements, Snow, Surfaces, Glaciers, Ka-band, ice sheets, interferometry, penetration, radar. [bibtex-entry]


  9. Fadwa Alshawaf, T. Fuhrmann, A. Knöpfler, X. Luo, Michael Mayer, Stefan Hinz, and B. Heck. Accurate Estimation of Atmospheric Water Vapor Using GNSS Observations and Surface Meteorological Data. IEEE Transactions on Geoscience and Remote Sensing, 53(7):3764-3771, July 2015. Keyword(s): atmospheric humidity, atmospheric temperature, remote sensing, satellite navigation, time series, remote sensing data, temporal variation, spatial variation, Global Navigation Satellite System, time series, precipitable water vapor content, precise point positioning, absolute precipitable water vapor, GNSS observations, GNSS site, surface temperature measurements, GNSS-based delay, MEdium Resolution Imaging Spectrometer sensor, mean RMS value, GNSS-based total precipitable water vapor, Weather Research and Forecasting Modeling System, WRF model simulations, atmospheric water vapor estimation, surface meteorological data, Global Positioning System, Delays, Temperature measurement, Atmospheric modeling, Atmospheric measurements, Satellites, Atmospheric sounding, Global Navigation Satellite System(s) (GNSS), MEdium Resolution Imaging Spectrometer (MERIS), precipitable water vapor (PWV), Weather Research and Forecasting (WRF), Atmospheric sounding, Global Navigation Satellite System(s) (GNSS), MEdium Resolution Imaging Spectrometer (MERIS), precipitable water vapor (PWV), Weather Research and Forecasting (WRF). [Abstract] [bibtex-entry]


  10. Marko Komac, Rachel Holley, Pooja Mahapatra, Hans van der Marel, and Milos Bavec. Coupling of GPS/GNSS and radar interferometric data for a 3D surface displacement monitoring of landslides. Landslides, 12(2):241-257, April 2015. [Abstract] [bibtex-entry]


  11. Jun Maeda and Kosuke Heki. Morphology and dynamics of daytime mid-latitude sporadic-E patches revealed by GPS total electron content observations in Japan. Earth, Planets and Space, 67(1):89, June 2015. Keyword(s): sporadic E, ionosphere, GPS, Global Positioning System, GNSS, Global Navigation Satellite System, GEONET, TEC, Total Electron Content. [Abstract] [bibtex-entry]


  12. Ekaterina Tymofyeyeva and Yuri Fialko. Mitigation of atmospheric phase delays in InSAR data, with application to the eastern California shear zone. Journal of Geophysical Research: Solid Earth, 120(8):5952-5963, 2015. Note: 2015JB011886. Keyword(s): SAR Processing, Interferometry, SAR interferometry, differential SAR interferometry, DInSAR, Displacement, Surface Displacement, Atmosphere, APS, Transient deformation, Satellite geodesy: results, Satellite geodesy: technical issues, Seismic cycle related deformations, Integrations of techniques, InSAR, time series, atmospheric delays, transient deformation. [Abstract] [bibtex-entry]


  13. Jun Maeda and Kosuke Heki. Two-dimensional observations of midlatitude sporadic E irregularities with a dense GPS array in Japan. Radio Science, 49(1):28-35, 2014. Keyword(s): sporadic E, ionosphere, GPS, Global Positioning System, GNSS, Global Navigation Satellite System, GEONET, TEC, Total Electron Content. [Abstract] [bibtex-entry]


  14. Pooja Mahapatra, Sami Samie Esfahany, Hans van der Marel, and Ramon F. Hanssen. On the Use of Transponders as Coherent Radar Targets for SAR Interferometry. IEEE Trans. Geosci. Remote Sens., 52(3):1869-1878, March 2014. Keyword(s): SAR Processing, Global Positioning System, geomorphology, geophysical equipment, radar interferometry, reliability, remote sensing by radar, synthetic aperture radar, terrain mapping, transponders, vegetation, ERS-2, Envisat, SAR interferometry, coherent radar targets, controlled environment, corner reflectors, double-difference transponder phase measurements, empirical precision range, field experiments, geometric variations, global positioning system, ground deformation monitoring, landslide monitoring, maintenance-related degradation, operational performance, passive devices, radar line of sight, radar transponders, reliability, transponder-InSAR observations, validation measurements, validation tests, vegetated nonurbanized areas, Corner reflector, geodesy, interferometry, measurement errors, persistent scatterer, phase measurement, quality control, synthetic aperture radar, transponder. [Abstract] [bibtex-entry]


  15. Karlus A. Câmara de Macedo, Christian Wimmer, T.L.M. Barreto, Dieter Lubeck, J.R. Moreira, L.M.L. Rabaco, and W.J. de Oliveira. Long-Term Airborne DInSAR Measurements at X- and P-Bands: A Case Study on the Application of Surveying Geohazard Threats to Pipelines. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 5(3):990-1005, June 2012. Keyword(s): SAR Processing, Deformation measurements, displacement measurements, DInSAR, differential interferometry, Airborne SAR, X-band, P-Band, OrbiSAR, Orbisat, BRADAR, geohazards, hazards, motion measurement, pipelines, radar interferometry, remote sensing by radar, surveying, synthetic aperture radar, time series, Brazil, OrbiSAR system, OrbiSat, P-band airborne DInSAR, PROTRAN, Petrobras, Sao Sebastiao, X-band airborne DInSAR, airborne DInSAR data, geodynamic processes, geohazard risk monitoring, geohazard risks, land movement measurement, long term airborne DInSAR measurements, pipeline geohazard threat surveying, pipeline structural damage, residual motion errors, time series analysis, Antenna measurements, Antennas, Global Positioning System, Interferometry, Pipelines, Radar tracking, Synthetic aperture radar, Airborne, P-band, X-band, differential interferometry (DInSAR), geohazards. [Abstract] [bibtex-entry]


  16. Joong-Sun Won Chang-Wook Lee, Zhong Lu, Hyung-Sup Jung and Daniel Dzurisin. Surface Deformation of Augustine Volcano, 1992?2005, from Multiple-Interferogram Processing Using a Refined Small Baseline Subset (SBAS) Interferometric Synthetic Aperture Radar (InSAR) Approach. In J.A. Power, M.L. Coombs, and J.T. Freymueller, editors, The 2006 Eruption of Augustine Volcano, Alaska, number 1769, chapter 18. U.S. Geological Survey, 2010. Keyword(s): SAR Processing, PSI, Persistent Scatterer Interferometry, Interferometry, SAR Interferometry, InSAR, Differential SAR Interferometry, DInSAR, SBAS, Small Baseline Subset, Volcano Monitoring, Surface Deformation, Deformation Monitoring, Geology. [Abstract] [bibtex-entry]


  17. Franz Meyer, Richard Bamler, N. Jakowski, and Thomas Fritz. The Potential of Low-Frequency SAR Systems for Mapping Ionospheric TEC Distributions. IEEE_J_GRSL, 3(4):560-564, October 2006. Keyword(s): SAR Processing, electron density, ionosphere, ionospheric techniques, microwave propagation, synthetic aperture radar, SAR signal properties, broadband L-band SAR, broadband microwave radiation, correlation technique, dispersive media, group delay, interferometric technique, ionospheric TEC distribution mapping, ionospheric propagation effects, low-frequency SAR systems, phase advance, synthetic aperture radar, total electron content, two-frequency global positioning system observations, Delay systems, Dielectrics, Dispersion, Electrons, Ionosphere, L-band, Position measurement, Refractive index, Signal mapping, Synthetic aperture radar, Atmospheric effects, L-band SAR, SAR interferometry, correlation, dispersive media, ionosphere, synthetic aperture radar (SAR), total electron content (TEC). [Abstract] [bibtex-entry]


  18. Bert M. Kampes and Ramon F. Hanssen. Ambiguity resolution for permanent scatterer interferometry. IEEE Trans. Geosci. Remote Sens., 42(11):2446-2453, November 2004. Keyword(s): LAMBDA method, ambiguity decorrelation, ambiguity resolution, bootstrap estimation, carrier phase observations, global positioning systems, integer least squares estimation, multivariate normal distribution, nonlinear parameter inversion algorithm, permanent scatterer interferometry, phase cycle ambiguity estimation, synthetic aperture radar interferometry, system of equations, variance-covariance matrix, geophysical signal processing, least squares approximations, normal distribution, parameter estimation, radiowave interferometry, remote sensing, remote sensing by radar, synthetic aperture radar;. [Abstract] [bibtex-entry]


  19. D. Leva, G. Nico, D. Tarchi, J. Fortuny-Guasch, and A.J. Sieber. Temporal analysis of a landslide by means of a ground-based SAR Interferometer. IEEE Trans. Geosci. Remote Sens., 41(4):745-752, April 2003. Keyword(s): Feeds, Global Positioning System, Image sequence analysis, Instruments, Interferometry, Layout, Monitoring, Morphology, Position measurement, Terrain factors, geomorphology, geophysical techniques, radiowave interferometry, synthetic aperture radar, terrain mapping, 16.70 to 16.78 GHz, 700 to 1150 m, Austria, D-InSAR, GBSAR interferometer, GPS receivers, Schwaz, Tyrol, accumulation zone, debris flow, deformation map, differential synthetic aperture radar interferometry, ground-based synthetic aperture radar interferometer, high-resolution images, interferogram sequence, landslide monitoring, landslides, phase image analysis, slowly deforming upper scarp, terrain morphology, velocity field;. [Abstract] [bibtex-entry]


  20. Per-Olov Frölind and Lars M. H. Ulander. Digital Elevation Map Generation Using VHF-Band SAR Data in Forested Areas. IEEE Transactions on Geoscience and Remote Sensing, 40(8):1769-1776, August 2002. Keyword(s): SAR Processing, Interferometry, DEM Generation, Time-Domain Back-Projection, Backprojection, Ultra-Wideband SAR, VHF SAR, CARABAS, Airborne SAR. [Abstract] [bibtex-entry]


  21. Johan J. Mohr, Niels Reeh, and Soren N. Madsen. Three-dimensional glacial flow and surface elevation measured with radar interferometry. Nature, 391(6664):273-276, January 1998. Keyword(s): SAR Processing, Interferometry, SAR interferometry, differential SAR interferometry, DInSAR, Glacier velocity, glacial flow. [Abstract] [bibtex-entry]


  22. David T. Sandwell and Evelyn J. Price. Phase gradient approach to stacking interferograms. Journal of Geophysical Research: Solid Earth, 103(B12):30183-30204, 1998. Keyword(s): SAR Processing, Interferometry, SAR interferometry, differential SAR interferometry, Inteferogram Stacking, DInSAR, Displacement, Surface Displacement, Deformation Mapping, Deformation Monitoring, Oceanic structures, Space geodetic surveys, Instruments and techniques, Tectonophysics: Dynamics, seismotectonics. [Abstract] [bibtex-entry]


  23. Simon Williams, Yehuda Bock, and Peng Fang. Integrated satellite interferometry: Tropospheric noise, GPS estimates and implications for interferometric synthetic aperture radar products. Journal of Geophysical Research: Solid Earth, 103(B11):27051-27067, 1998. Keyword(s): SAR Processing, Interferometry, SAR interferometry, differential SAR interferometry, DInSAR, Displacement, Surface Displacement, Atmosphere, APS, Geodesy and Gravity, Instruments and techniques, Interferometry, GPS, GNSS. [Abstract] [bibtex-entry]


  24. Howard A. Zebker, Paul A. Rosen, and Scott Hensley. Atmospheric effects in interferometric synthetic aperture radar surface deformation and topographic maps. Journal of Geophysical Research: Solid Earth, 102(B4):7547-7563, 1997. Keyword(s): Remote sensing, Instruments and techniquesInstruments and techniques. [Abstract] [bibtex-entry]


  25. Howard A. Zebker, Paul A. Rosen, Richard M. Goldstein, Andrew Gabriel, and Charles L. Werner. On the derivation of coseismic displacement fields using differential radar interferometry: The Landers earthquake. Journal of Geophysical Research: Solid Earth, 99(B10):19617-19634, 1994. Keyword(s): SAR Processing, Interferometry, SAR interferometry, differential SAR interferometry, DInSAR, Deformation Mapping, Deformation Monitoring, ERS-1, Displacement, Surface Displacement, Surface Deformation, Spaceborne SAR, C-band, Earthquake, Landers earthquake, Fault Slip, Remote sensing, Seismic instruments and networks, Earthquake source observations, Earthquake interaction, forecasting, and prediction. [Abstract] [bibtex-entry]


Conference articles

  1. Daniel Henke, Max Frioud, Julian Fagir, Sebastien Guillaume, Michael Meindl, Alain Geiger, S. Sieger, D. Janssen, F. Kloppel, M. Caris, S. Stanko, M. Renker, and Peter Wellig. Miranda35 Experiments in Preparation for Small UAV-Based SAR. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 8542-8545, July 2019. Keyword(s): airborne radar, autonomous aerial vehicles, CW radar, FM radar, Global Positioning System, image motion analysis, radar imaging, radar receivers, synthetic aperture radar, units (measurement), frequency-modulated continuous-wave synthetic aperture radar, energy efficiency, navigation data, inertial measurement unit, IMU, SAR image quality, airborne platform, SAR autofocus, small UAV-based SAR systems, FMCW SAR, Miranda35 experiments, moving baseline differential GPS, optical structure-from-motion-based localization, FHR FMCW MIRANDA35 sensor, Synthetic aperture radar, Global Positioning System, Radar polarimetry, Cameras, Optical sensors, SAR autofocus, navigation, synthetic aperture radar, small UAV. [Abstract] [bibtex-entry]


  2. Roberto Coscione, Irena Hajnsek, and Othmar Frey. An experimental car-borne SAR System: measurement setup and positioning error analysis. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 6364-6367, 2018. Keyword(s): SAR Processing, Time-Domain Back-Projection, TDBP, dechirp-on-receive, FMCW, Frequency-modulated continous wave, Ground-based SAR, car-borne SAR, CARSAR, InSAR, DInSAR, geophysical techniques, ground-based SAR system, radar interferometry, synthetic aperture radar, GAMMA Portable Radar Interferometer (GPRI), GPRI, GPRI-II, interferometric technique, Coherence, Correlation, Interferometry, agile platform, airborne SAR, Inertial Naviation System (INS), Global Navigation Satellite System (GNSS), INS/GNSS, iMAR. [Abstract] [bibtex-entry]


  3. Ning Cao, Hyongki Lee, Evan Zaugg, Ramesh Shrestha, William E. Carter, Craig Glennie, Zhong Lu, and Juan Carlos Fernandez Diaz. Evaluation of an airborne SAR system for deformation mapping: A case study over the slumgullion landslide. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 1684-1687, July 2017. Keyword(s): SAR Processing, Interferometry, SAR Interferometry, InSAR, Differential SAR Interferometry, DInSAR, Repeat-Pass Interferometry, deformation monitoring, subsidence monitoring, Displacement, Earth, Global Positioning System, Laser radar, Spaceborne radar, Strain, Synthetic aperture radar, Terrain factors, GPS, InSAR, Landslide, LiDAR, SAR. [Abstract] [bibtex-entry]


  4. M. Schuetz, M. Oesterlein, C. Birkenhauer, and M. Vossiek. A custom lightweight UAV for radar remote sensing: Concept design, properties and possible applications. In 2017 IEEE MTT-S International Conference on Microwaves for Intelligent Mobility (ICMIM), pages 107-110, March 2017. Keyword(s): embedded systems, Global Positioning System, ground penetrating radar, MIMO radar, radar interferometry, remote sensing, synthetic aperture radar, custom lightweight UAV, radar remote sensing, concept design, tailor-made UAV-based sensor platform, radar remote sensing, radar baseband processing, differential GPS system, synthetic apertures, interferometric remote sensing, MIMO radar system, side-looking-airborne-radar, full interferometric SAR processing, radar altimeter measurement, altitude estimators, ultrasonic sensors, barometric sensors, Radar remote sensing, Synthetic aperture radar, Radar antennas, Baseband, Antenna arrays, Clocks, multicopter, UAV, remote sensing, system design, radar system, SAR, interferometry. [Abstract] [bibtex-entry]


  5. M. A. Remy, Karlus A. Camara de Macedo, and Joao R. Moreira. The first UAV-based P- and X-band interferometric SAR system. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 5041-5044, July 2012. Keyword(s): geophysical equipment, radar interferometry, remote sensing, synthetic aperture radar, UAV-based P-band interferometric SAR system, UAV-based X-band interferometric SAR system, OrbiSat system, Brazil, compact InSAR system, flexible InSAR system, topographic survey, differential interferometry, unmanned air vehicle, Synthetic aperture radar, Global Positioning System, Remote sensing, Interferometry, Radar antennas, UAV, SAR, P, X, interferometry. [Abstract] [bibtex-entry]


  6. H. Essen, S. Stanko, R. Sommer, W. Johannes, A. Wahlen, J. Wilcke, and S. Hantscher. Millimetre wave SAR for UAV operation. In Proc. Asia-Pacific Microwave Conference, pages 963-966, December 2011. Keyword(s): SAR Processing, W-Band, SUMATRA, Airborne SAR, UAV, Fraunhofer, CW radar, FM radar, Global Positioning System, airborne radar, autonomous aerial vehicles, high electron mobility transistors, millimetre wave amplifiers, millimetre wave field effect transistors, millimetre wave radar, synthetic aperture radar, Fraunhofer spin-off, UAV operation, W-band, advanced front-end technique, environmental monitoring, frequency 94 GHz, highly miniaturized FM-CW radar, low noise HEMT amplifiers, military reconnaissance, millimetre wave SAR system, millimetre wave technology, miniaturized radars, off-the-shelf GPS, sensor package, small airborne sensing aircraft, synthetic aperture radar, transmission equipment, Aircraft, Bandwidth, Chirp, Radar imaging, Sensors, Synthetic aperture radar, FM-CW waveform, UAV, millimetre waves, synthetic aperture radar. [Abstract] [bibtex-entry]


  7. H. Essen, M. Bräutigam, R. Sommer, A. Wahlen, W. Johannes, J. Wilcke, M. Schlechtweg, and A. Tessmann. SUMATRA, a W-band SAR for UAV application. In 2009 International Radar Conference Surveillance for a Safer World (RADAR 2009), pages 1-4, October 2009. Keyword(s): SAR Processing, W-Band, SUMATRA, Airborne SAR, UAV, Fraunhofer, airborne radar, aircraft, millimetre wave radar, remotely operated vehicles, synthetic aperture radar, HEMT amplifiers, IF amplifiers, LNA, SUMATRA-94, UAV application, data transmission equipment, frequency 94 GHz, miniaturized GPS, mixer, remotely piloted aircraft, synthetic aperture unmanned millimeterwave airborne test radar, w-band SAR, Airborne radar, Aircraft, Data communication, Global Positioning System, HEMTs, Hardware, Low-noise amplifiers, Power system modeling, Remote sensing, Unmanned aerial vehicles, HEMTAmplifiers, Millimeterwaves, SAR, UAV. [Abstract] [bibtex-entry]


  8. Scott Hensley, T. Michel, M. Simard, C. Jones, R. Muellerschoen, C. Le, H. Zebker, and B. Chapman. Residual motion estimation for UAVSAR: Implications of an electronically scanned array. In 2009 IEEE Radar Conference, pages 1-5, May 2009. Keyword(s): SAR Processing, Global Positioning System, antenna arrays, motion estimation, radar interferometry, synthetic aperture radar, UAVSAR, along-track offsets, electronically scanned antenna array, repeat pass radar interferometry, residual motion estimation, surface deformation, Antenna measurements, Azimuth, Data engineering, Earth, Geophysical measurements, Instruments, L-band, Motion estimation, Radar interferometry, Solids. [Abstract] [bibtex-entry]


  9. John M. Dow, Ruth E. Neilan, and Chris Rizos. The International GNSS Service (IGS): Preparations for the Coming Decade. In 20th Int. Tech. Meeting of the Satellite Division of the US Inst. of Navigation, 2007. Keyword(s): GNSS, Global Navigation Satellite System, International GNSS Service, IGS, Zenith Tropospheric Delay, ZTD. [Abstract] [bibtex-entry]


  10. J. C. Kirk, R. Lefevre, R. Van Daalen Wetters, D. Woods, and B. Sullivan. Signal based motion compensation (SBMC). In Record of the IEEE 2000 International Radar Conference, pages 463-468, May 2000. Keyword(s): SAR Processing, Autofocus, motion compensation, radar theory, radar signal processing, aircraft navigation, jamming, air traffic control, signal based motion compensation, SAR, down range compensation, cross range compensation, radar signal, platform motion, aircraft navigation, autofocus performance, navigation system performance degradation, component failure, GPS jamming, Motion compensation, Costs, Robustness, Motion measurement, Radar measurements, Airborne radar, Aircraft navigation, System performance, Degradation, Global Positioning System. [Abstract] [bibtex-entry]


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This collection of SAR literature is far from being complete.
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Last modified: Mon Feb 1 16:39:58 2021
Author: Othmar Frey, Earth Observation and Remote Sensing, Institute of Environmental Engineering, Swiss Federal Institute of Technology - ETH Zurich .


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