BACK TO INDEX BACK TO OTHMAR FREY'S HOMEPAGE

Publications about 'Instruments'

Thesis

  1. Adriano Meta. Signal Processing of FMCW Synthetic Aperture Radar Data. PhD thesis, TU Delft, 2006. Keyword(s): SAR Processing, FMCW, Frequency Modulated Continuous Wave, LFM-CW, SAR, Synthetic Aperture Radar, FMCW SAR, Airborne SAR, Focusing. [Abstract] [bibtex-entry]


Articles in journal or book chapters

  1. A. Cicoira, S. Weber, A. Biri, B. Buchli, R. Delaloye, R. Da Forno, I. Gärtner-Roer, S. Gruber, T. Gsell, A. Hasler, R. Lim, P. Limpach, R. Mayoraz, M. Meyer, J. Noetzli, M. Phillips, E. Pointner, H. Raetzo, C. Scapozza, T. Strozzi, L. Thiele, A. Vieli, D. Vonder Mühll, V. Wirz, and J. Beutel. In situ observations of the Swiss periglacial environment using GNSS instruments. Earth System Science Data, 14(11):5061-5091, 2022. [bibtex-entry]


  2. J. Matar, M. Rodriguez-Cassola, G. Krieger, P. Lopez-Dekker, and A. Moreira. MEO SAR: System Concepts and Analysis. IEEE Transactions on Geoscience and Remote Sensing, 58(2):1313-1324, February 2020. Keyword(s): Orbits, Sensitivity, Synthetic aperture radar, Antennas, Spatial resolution, Low earth orbit satellites, Coverage, medium-Earth-orbit (MEO) synthetic aperture radar (SAR), orbits, SAR, space radiation, system performance.. [Abstract] [bibtex-entry]


  3. 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. [Abstract] [bibtex-entry]


  4. S. Leinss, H. Löwe, M. Proksch, J. Lemmetyinen, A. Wiesmann, and I. Hajnsek. Anisotropy of seasonal snow measured by polarimetric phase differences in radar time series. The Cryosphere, 10:1771-1797, 2016. Keyword(s): snow, anisotropy, SnowScat, polarimetric, copolar phase difference CPD.. [Abstract] [bibtex-entry]


  5. C. Lin, B. Rommen, N. Floury, D. Schüttemeyer, M. W. J. Davidson, M. Kern, A. Kontu, J. Lemmetyinen, J. Pulliainen, A. Wiesmann, C. L. Werner, C. Mätzler, M. Schneebeli, M. Proksch, and T. Nagler. Active Microwave Scattering Signature of Snowpack---Continuous Multiyear SnowScat Observation Experiments. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 9(8):3849-3869, August 2016. Keyword(s): remote sensing by radar, snow, snowpack active microwave scattering signature, multiyear SnowScat observation experiment, European Space Agency SnowScat instrument, aperture scatterometer, gamma remote sensing AG, AD 2009 02, Weissfluhjoch, Davos, Switzerland, alpine snowpack, snowpack physical characterization, Sodankyla, Finland, AD 2009 11, Finnish Meteorological Institute, Lapland, passive microwave observation, winter season, time-domain snow profiling experiment, snow microstructure, snow metamorphism, snow depth, snow-water-equivalent, frequency 9.15 GHz to 17.9 GHz, Snow, Instruments, Microstructure, Spaceborne radar, Backscatter, Microwave radiometry, Microwave backscatter, radar remote sensing, scatterometer, snow microstructure, snowpack, snow-water-equivalent (SWE), time-domain profiling. [Abstract] [bibtex-entry]


  6. Rafael Caduff, Andreas Wiesmann, Yves Bühler, and Christine Pielmeier. Continuous monitoring of snowpack displacement at high spatial and temporal resolution with terrestrial radar interferometry. Geophysical Research Letters, 42(3):813-820, 2015. Note: 2014GL062442. Keyword(s): GPRI-II, Remote sensing, Dynamics, Instruments and techniques, Monitoring, forecasting, prediction, Methods, terrestrial radar interferometry, remote sensing of snow, snowpack displacement monitoring, full-depth snow glide avalanche. [bibtex-entry]


  7. Silvan Leinss, Andreas Wiesmann, J. Lemmetyinen, and I. Hajnsek. Snow Water Equivalent of Dry Snow Measured by Differential Interferometry. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 8(8):3773-3790, August 2015. Keyword(s): radar interferometry, remote sensing by radar, snow, Finland, SnowScat instrument, Sodankyla town, Xand Ku-band, active microwave remote sensing method, differential interferogram time series, differential radar interferometry, dry snow measurement, frequency 10 GHz, frequency 16 GHz, frequency 20 GHz, passive microwave remote sensing method, phase wrapping error, reference instrument, signal delay, snow density, snow pack spatial inhomogeneity, snow volume, snow water equivalent mapping, stratigraphy, temporal decorrelation, time 30 day, Backscatter, Ice, Instruments, Interferometry, Snow, Synthetic aperture radar, Coherence loss, SnowScat, dielectric constant of snow, differential interferometry (D-InSAR), dry snow, microwave penetration of snow, real aperture radar, snow water equivalent (SWE), synthetic aperture radar (SAR). [Abstract] [bibtex-entry]


  8. Karl-Heinz Bethke, S. Baumgartner, M. Gabele, D. Hounam, E. Kemptner, D. Klement, G. Krieger, and R. Erxleben. Air- and spaceborne monitoring of road traffic using SAR moving target indication--Project TRAMRAD. ISPRS Journal of Photogrammetry and Remote Sensing, Theme Issue: Airborne and Spaceborne Traffic Monitoring, 61(3-4):243-259, December 2006. Keyword(s): SAR Processing, TRAMRAD, Traffic Monitoring, TerraSAR-X, STAP, Space-Time Adaptive Processing, MTI, Moving Target Indication, SAR Interferometry, Interferometry, ATI, Along-Track SAR Interferometry. [Abstract] [bibtex-entry]


  9. C. Elachi, S. Wall, M. Allison, Y. Anderson, R. Boehmer, P. Callahan, P. Encrenaz, E. Flamini, G. Franceschetti, Y. Gim, G. Hamilton, S. Hensley, M. Janssen, W. Johnson, K. Kelleher, R. Kirk, R. Lopes, R. Lorenz, J. Lunine, D. Muhleman, S. Ostro, F. Paganelli, G. Picardi, F. Posa, L. Roth, R. Seu, S. Shaffer, L. Soderblom, B. Stiles, E. Stofan, S. Vetrella, R. West, C. Wood, L. Wye, and H. Zebker. Cassini Radar Views the Surface of Titan. Science, 308(5724):970-974, 2005. Keyword(s): SAR Processing, Cassini Radar, Saturn, astronomical instruments, planetary satellites, radar applications, radioastronomy, space vehicles, Cassini Saturn Mission, Cassini Titan Radar Mapper, Titan, antenna configuration, design constraints, multimode radar, radar modes, surface imaging, topographic mapping, Instruments, Laser radar, Moon, Optical design, Payloads, Probes, Radar antennas, Radar imaging, Saturn, Surface topography. [Abstract] [bibtex-entry]


  10. Boon Leng Cheong, Michael W. Hoffman, Robert D. Palmer, Stephen J. Frasier, and F. J. López-Dekker. Pulse pair beamforming and the effects of reflectivity field variations on imaging radars. Radio Science, 39(3), 2004. Note: RS3014. Keyword(s): Radio Science: Remote sensing, Radio Science: Signal processing, Radio Science: Tomography and imaging, Radio Science: Instruments and techniques, pulse pair beamforming, gradient variations, imaging radars. [Abstract] [bibtex-entry]


  11. G. Luzi, M. Pieraccini, D. Mecatti, L. Noferini, G. Guidi, F. Moia, and C. Atzeni. Ground-based radar interferometry for landslides monitoring: atmospheric and instrumental decorrelation sources on experimental data. IEEE Trans. Geosci. Remote Sens., 42(11):2454-2466, November 2004. Keyword(s): Decorrelation, Temporal Decorrelation, Adaptive optics, Decorrelation, Image analysis, Instruments, Monitoring, Optical distortion, Optical interferometry, Radar interferometry, Synthetic aperture radar, Terrain factors, data acquisition, decorrelation, geomorphology, geophysical signal processing, radar imaging, radiowave interferometry, remote sensing by radar, synthetic aperture radar, terrain mapping, topography (Earth), 5.725 GHz, AD 2002, C-band ground-based equipment, Civita di Bagnoregio, Italy, SAR image acquisition, ancient town, atmospheric decorrelation sources, coherent synthetic aperture radar, geometric distortion, ground-based radar interferometry, instrumental decorrelation sources, interferometric data, landslide monitoring, mechanical stability, optical photogrammetry, spatial decorrelation, temporal decorrelation, terrain movements, 65, Decorrelation, SAR, differential interferometry, ground-based synthetic aperture radar, phase stability, synthetic aperture radar;. [Abstract] [bibtex-entry]


  12. 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]


  13. Dario Tarchi, Nicola Casagli, Sandro Moretti, Davide Leva, and Alois J. Sieber. Monitoring landslide displacements by using ground-based synthetic aperture radar interferometry: Application to the Ruinon landslide in the Italian Alps. Journal of Geophysical Research: Solid Earth, 108(B8), 2003. Note: 2387. Keyword(s): GBSAR, SAR Processing, Ground-based SAR, Synthetic aperture radar, SAR interferometry, differential SAR interferometry, DInSAR, interferometric stacking, deformation monitoring, subsidence monitoring, deformation measurements, Electromagnetics: Instrumentation and techniques, Control surveys, Geomorphology: general, Geomorphology: fluvial, Geomorphology: hillslope, Instruments and techniques: modeling, Instruments and techniques: monitoring, General or Miscellaneous: New fields (not classifiable under other headings), remote sensing, interferometry, radar, landslide, monitoring, ground-based DInSAR. [bibtex-entry]


  14. Didier Massonnet and Kurt L. Feigl. Radar interferometry and its application to changes in the Earth's surface. Reviews of Geophysics, 36(4):441-500, 1998. Keyword(s): Permeability and porosity. [Abstract] [bibtex-entry]


  15. 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]


  16. Tazio Strozzi and Christian Matzler. Backscattering measurements of alpine snowcovers at 5.3 and 35 GHz. IEEE Transactions on Geoscience and Remote Sensing, 36(3):838-848, May 1998. Keyword(s): backscatter, hydrological techniques, radar cross-sections, radar polarimetry, remote sensing by radar, snow, 35 GHz, 5.3 GHz, AD 1993, AD 1994, AD 1995, AD 1996, Austria, Austrian Alp, C-band, EHF, Ka-band, SHF, Switzerland, hydrology, measurement technique, network-analyzer based scatterometer, radar backscatter, radar polarimetry, radar remote sensing, radar scattering, refrozen crust thickness, snow cover, snowcover, volumetric liquid water content, Backscatter, Frequency, Instruments, Millimeter wave measurements, Performance evaluation, Physics, Polarization, Radar measurements, Snow, Testing. [Abstract] [bibtex-entry]


  17. 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, GPS, GNSS. [Abstract] [bibtex-entry]


  18. 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]


  19. Christian Matzler. Microwave permittivity of dry snow. IEEE Transactions on Geoscience and Remote Sensing, 34(2):573-581, 1996. Keyword(s): UHF measurement, hydrological equipment, permittivity, snow, -10 to 0 degC, 1 GHz, Austrian Alps, Swiss Alps, average axial ratio, coaxial sensor, density, destructive metamorphism, dry snow, ice grains, ice volume fraction, liquid-like surface layer, microwave permittivity, oblate spheroids, physical mixing theory, prolate spheroids, relative dielectric constant, relative permittivity, resometer, resonator, sintering, Coaxial components, Dielectric constant, Dielectric measurements, Frequency, Ice, Instruments, Measurement standards, Permittivity measurement, Snow, Testing. [Abstract] [bibtex-entry]


  20. Richard M. Goldstein. Atmospheric limitations to repeat-track radar interferometry. Geophysical Research Letters, 22(18):2517-2520, 1995. Keyword(s): SAR Processing, Interferometry, SAR interferometry, Atmospheric Composition and Structure: Troposphere-composition and chemistry, Geodesy and Gravity: Space geodetic surveys, Geodesy and Gravity: Instruments and techniques, Radio Science: Remote sensing. [Abstract] [bibtex-entry]


  21. 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]


  22. Didier Massonnet and Thierry Rabaute. Radar interferometry: limits and potential. IEEE Trans. Geosci. Remote Sens., 31(2):455-464, 1993. Keyword(s): SAR Processing, electromagnetic wave interferometry, geophysical techniques, image processing, remote sensing by radar, topography (Earth), accuracy, differential interferometry, digital terrain modeling, height restitution, image pair, image processing, orbital geometry, phase ambiguity, radar interferometry, topography, Geometrical optics, Instruments, Laser radar, Optical interferometry, Optical sensors, Radar antennas, Radar imaging, Radar interferometry, Spaceborne radar, Synthetic aperture radar. [Abstract] [bibtex-entry]


  23. Charles Elachi, Eastwood Im, Ladislav E. Roth, and Charles L. Werner. Cassini Titan Radar Mapper. Proceedings of the IEEE, 79(6):867-880, June 1991. Keyword(s): SAR Processing, Cassini Radar, Saturn, astronomical instruments, planetary satellites, radar applications, radioastronomy, space vehicles, Cassini Saturn Mission, Cassini Titan Radar Mapper, Titan, antenna configuration, design constraints, multimode radar, radar modes, surface imaging, topographic mapping, Instruments, Laser radar, Moon, Optical design, Payloads, Probes, Radar antennas, Radar imaging, Saturn, Surface topography. [Abstract] [bibtex-entry]


Conference articles

  1. R. Rincon, B. Osmanoglu, P. Racette, Q. Bonds, M. Perrine, L. Brucker, S. Seufert, and C. Kielbasa. Tri-Frequency Synthetic Aperture Radar for the Measurements of Snow Water Equivalent. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 8653-8655, July 2019. Keyword(s): airborne radar, hydrological equipment, hydrological techniques, radiometers, snow, synthetic aperture radar, airborne synthetic aperture radar system, snow water equivalent, SWE, radiometer, active passive microwave system, frequency bands, successful system performance, tri-frequency synthetic aperture radar, SWESARR instrument, dual polarization radar, AD 2019 11, frequency 9.65 GHz, frequency 13.6 GHz, frequency 200.0 MHz, frequency 17.25 GHz, Snow, Spaceborne radar, Radar antennas, Synthetic aperture radar, Instruments, Microwave radiometry, Snow, SAR, SWE. [Abstract] [bibtex-entry]


  2. Ludovic Brucker, Christopher Hiemstra, Hans-Peter Marshall, Kelly Elder, Roger De Roo, Mohammad Mousavi, Francis Bliven, Walt Peterson, Jeffrey Deems, Peter Gadomski, Arthur Gelvin, Lucas Spaete, Theodore Barnhart, Ty Brandt, John Burkhart, Christopher Crawford, Tri Datta, Havard Erikstrod, Nancy Glenn, Katherine Hale, Brent Holben, Paul Houser, Keith Jennings, Richard Kelly, Jason Kraft, Alexandre Langlois, Daniel McGrath, Chelsea Merriman, Noah Molotch, Anne Nolin, Chris Polashenski, Mark Raleigh, Karl Rittger, Chago Rodriguez, Alexandre Roy, McKenzie Skiles, Eric Small, Marco Tedesco, Chris Tennant, Aaron Thompson, Liuxi Tian, Zach Uhlmann, Ryan Webb, and Matt Wingo. A first overview of SnowEx ground-based remote sensing activities during the winter 2016-2017. In 2017 IEEE International Geoscience and Remote Sensing Symposium (IGARSS), pages 1391-1394, July 2017. [Abstract] [bibtex-entry]


  3. Elias J. Deeb, Hans-Peter Marshall, Richard R. Forster, Cathleen E. Jones, Christopher A. Hiemstra, and Paul R. Siqueira. Supporting NASA SnowEx remote sensing strategies and requirements for L-band interferometric snow depth and snow water equivalent estimation. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 1395-1396, July 2017. [Abstract] [bibtex-entry]


  4. M. Pieraccini. Polarimetrie RotoSAR. In Proc. IEEE Radar Conf. (RadarConf), pages 1-5, May 2016. Keyword(s): GB-SAR, ground-based SAR, terrestrial SAR, radar antennas, radar imaging, radar interferometry, remote sensing by radar, synthetic aperture radar, ground based inteferometric synthetic aperture radar systems, linear mechanical guide, polarimetric RotoSAR, radar head, radar images, remote sensing instruments, rotating antenna GB-SAR, Monitoring, Radar antennas, Radar imaging, Radar polarimetry, Radar remote sensing, Synthetic aperture radar, SAR, radar. [bibtex-entry]


  5. M. T. Ghasr, K. P. Ying, and R. Zoughi. Wideband millimeter wave interferometer for high-resolution 3D SAR imaging. In 2015 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Proceedings, pages 925-929, May 2015. Keyword(s): SAR Processing, W-Band, holographic interferometry, image resolution, millimetre wave imaging, millimetre wave radar, radar imaging, radar interferometry, radar resolution, reflectometers, synthetic aperture radar, high-resolution 3D SAR imaging, nondestructive testing, phase referencing, portable millimeter wave imaging system, synthetic aperture radar image resolution, three-dimensional millimeter wave holographic image production, wideband millimeter wave interferometer, Apertures, Imaging, Millimeter wave technology, Ports (Computers), Rubber, Three-dimensional displays, Wideband, high-resolution, holographical images, millimeter wave imaging, synthetic aperture radar, wideband interferometer. [Abstract] [bibtex-entry]


  6. S. Rödelsperger, A. Coccia, D. Vicente, and A. Meta. Introduction to the new metasensing ground-based SAR: Technical description and data analysis. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 4790-4792, July 2012. Keyword(s): data analysis, geophysical equipment, geophysical image processing, synthetic aperture radar, metasensing ground-based SAR, data analysis, MetaSensing FastGBSAR, high sampling rate, submillimeter accuracy, Synthetic aperture radar, Sensors, Monitoring, Instruments, Microwave imaging, Microwave theory and techniques, Accuracy. [Abstract] [bibtex-entry]


  7. N. Chamberlain, H. Ghaemi, L. Giersch, L. Harcke, R. Hodges, J. Hoffman, W. Johnson, R. Jordan, B. Khayatian, P. Rosen, G. Sadowy, S. Shaffer, Y. Shen, L. Veilleux, and P. Wu. The DESDynI synthetic aperture radar array-fed reflector antenna. In Proc. IEEE Int. Symposium on Phased Array Systems and Technology (ARRAY), pages 381-386, October 2010. Keyword(s): DESDynl, Earth-orbit remote sensing, NASA, SweepSAR, active switched array, array-fed reflector antenna, lidar instruments, patch antenna, radar imaging, synthetic aperture radar antenna, active antenna arrays, aperture antennas, microstrip antenna arrays, radar antennas, reflector antenna feeds, synthetic aperture radar. [Abstract] [bibtex-entry]


  8. Charles L. Werner, Andreas Wiesmann, Tazio Strozzi, Martin Schneebeli, and Christian Matzler. The SnowScat ground-based polarimetric scatterometer: Calibration and initial measurements from Davos Switzerland. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 2363-2366, July 2010. Keyword(s): SnowScat, KuScat, calibration, geophysical equipment, radar polarimetry, snow, COld REgions Hydrology High-resolution Observatory Mission, Davos Switzerland, Ku-Band, SNOWSCAT ground-based polarimetric scatterometer, SnowScat, VH polarization, VV polarization, X-Band, calibration, dry snow, dual frequency radar, ground-based coherent polarimetric scatterometer, snow water equivalent retrieval algorithms, Antenna measurements, Antennas, Calibration, Frequency measurement, Instruments, Radar measurements, Snow. [Abstract] [bibtex-entry]


  9. Andreas Wiesmann, Charles L. Werner, Tazio Strozzi, Christian Matzler, Thomas Nagler, Helmut Rott, Martin Schneebeli, and Urs Wegmuller. SnowScat, X- to Ku-Band Scatterometer Development. In Proc. ESA Living Planet Symposium, June 2010. Keyword(s): SnowScat, KuScat, backscatter, hydrological techniques, radiometry, remote sensing by radar, snow, spaceborne radar, C-band SAR satellite systems, ESA CoRe-H2O mission, Ku-band scatterometer, Swiss Alps, X-band scatterometer, backscatter information, backscattering signal, dry snow cover, dual frequency radar, frequency 18 GHz, frequency 9 GHz, mobile scatterometer, snow coverage, snow liquid water content, snow structure, spaceborne active microwave remote sensing, Backscatter, Frequency, Ground support, Radar measurements, Remote sensing, Satellites, Signal generators, Snow, Spaceborne radar, Water storage, Scatterometer, Snow, backscatter, snow grain. [Abstract] [bibtex-entry]


  10. 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]


  11. S. Hensley, H. Zebker, C. Jones, T. Michel, R. Muellerschoen, and B. Chapman. First deformation results using the NASA/JPL UAVSAR instrument. In Proc. Asian-Pacific Conference on Synthetic Aperture Radar, pages 1051-1055, October 2009. Keyword(s): active antennas, radar interferometry, synthetic aperture radar, deformation results, NASA/JPL UAVSAR instrument, L-band actively electronically scanned antenna, ESTO instrument incubator program, solid earth applications, radar interferometry, Ka-band single-pass radar interferometer, NASA Gulfstream III aircraft, NASA Dryden Flight Research Center, repeat-pass radar interferometric applications, 1NU measurement data, NASA, Instruments, L-band, Antenna measurements, Testing, Aircraft, Airborne radar, Solids, Earth, Radar interferometry. [Abstract] [bibtex-entry]


  12. A. Donnellan, P. Rosen, J. Graf, A. Loverro, A. Freeman, R. Treuhaft, R. Oberto, Marc Simard, Eric J. Rignot, R. Kwok, Xiaoqing Pi, J.B. Blair, W. Abdalati, J. Ranson, H. Zebker, B. Hager, H. Shugart, M. Fahnestock, and R. Dubayah. Deformation, Ecosystem Structure, and Dynamics of Ice (DESDynI). In Proc. IEEE Aerospace Conf., pages 1-13, March 2008. Keyword(s): DESDynl mission, National Research Council Earth Science Decadal Survey, Earth Science Applications from Space, biomass, cryosphere objectives, ecosystem function, ecosystem structure, ice dynamics, integrated L-band InSAR, multibeam Lidar mission, solid Earth, surface deformation, topography, vegetation structure, deformation, optical radar, synthetic aperture radar, topography (Earth), vegetation mapping. [Abstract] [bibtex-entry]


  13. A. Donnellan, P. Rosen, J. Ranson, and H. Zebker. Deformation, Ecosystem Structure, and Dynamics of Ice (DESDynI). In IEEE Int. Geoscience and Remote Sensing Symposium, IGARSS 2008, volume 3, pages 5-8, July 2008. Keyword(s): DESDynl mission, Deformation, Ecosystem Structure, and Dynamics of Ice, Earth Science Decadal Survey, National Research Council, biomass estimation, carbon cycle, cryosphere objectives, ecosystem function, integrated L-band InSAR, multibeam Lidar mission, solid Earth surface deformation, surface elevation changes, topography measure, vegetation structure, deformation, optical radar, radar interferometry, remote sensing by radar, topography (Earth), vegetation. [Abstract] [bibtex-entry]


  14. Charles L. Werner, Tazio Strozzi, Andreas Wiesmann, and Urs Wegmuller. A Real-Aperture Radar for Ground-Based Differential Interferometry. In Proc. IEEE Int. Geosci. Remote Sens. Symp., volume 3, pages 210-213, July 2008. Keyword(s): SAR Processing, Antenna measurements, Instruments, Interferometry, Monitoring, Radar antennas, Radar imaging, Receiving antennas, Satellites, Spaceborne radar, Terrain factors, antennas, geomorphology, geophysical equipment, radar interferometry, remote sensing by radar, rocks, spaceborne radar, synthetic aperture radar, GAMMA Portable Radar Interferometer, GPRI, frequency 17.2 GHz, ground-based differential interferometry, height measurements, image acquisition, in-situ radar imaging system, landslides, line-of-sight displacements, phase differences, photogrammetry systems, real-aperture radar, receiving antennas, rock fall warning system, slope stability, space-borne INSAR, space-borne SAR interferometry, surface topography, GAMMA, RAR, Radar Interferometer, glacier, landslide;. [Abstract] [bibtex-entry]


BACK TO INDEX BACK TO OTHMAR FREY'S HOMEPAGE


Disclaimer:

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 adhere to the terms and constraints invoked by each author's copyright.

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 14:23:45 2023
Author: Othmar Frey, Earth Observation and Remote Sensing, Institute of Environmental Engineering, Swiss Federal Institute of Technology - ETH Zurich .


This document was translated from BibTEX by bibtex2html