Publications about 'PALSAR'

Articles in journal or book chapters

1. Gustavo H. X. Shiroma, Marco Lavalle, and Sean M. Buckley. An Area-Based Projection Algorithm for SAR Radiometric Terrain Correction and Geocoding. IEEE Transactions on Geoscience and Remote Sensing, 60:1-23, 2022. [Abstract] [bibtex-entry]



2. Heming Liao, Franz J. Meyer, Bernd Scheuchl, Jeremie Mouginot, Ian Joughin, and Eric Rignot. Ionospheric correction of InSAR data for accurate ice velocity measurement at polar regions. Remote Sensing of Environment, 209:166-180, 2018. Keyword(s): Synthetic aperture radar, SAR interferometry, Ice velocity, Range split spectrum, Data stacking, Ionosphere effect, Ionosphere correction. [Abstract] [bibtex-entry]



3. A. G. Mullissa, D. Perissin, V. A. Tolpekin, and A. Stein. Polarimetry-Based Distributed Scatterer Processing Method for PSI Applications. IEEE Trans. Geosci. Remote Sens., PP(99):1-12, 2018. Keyword(s): Coherence, Interferometry, Matrix decomposition, Optimization, Synthetic aperture radar, Adaptive filtering, distributed scatterers (DSs), multitemporal interferometric synthetic aperture radar (InSAR), permanent scatterer interferometry (PSI), polarimetric optimization, polarimetric synthetic aperture radar interferometry.. [Abstract] [bibtex-entry]



4. 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]



5. NI. 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]



6. Masato Furuya, Takato Suzuki, Jun Maeda, and Kosuke Heki. Midlatitude sporadic-E episodes viewed by L-band split-spectrum InSAR. Earth, Planets and Space, 69(1):175, December 2017. Keyword(s): SAR Processing, SAR Interferometry, Interferometry, Split-Spectrum, Split-band, Split-Spectrum Interferometry, Split-band Interferometry, Total Electron Content Estimation, TEC Estimation, Ionospheric TEC, Faraday Rotation, Path Delay, Spaceborne SAR, L-Band, ALOS, Phased Array L-band SAR, PALSAR, Calibration, Ionosphere, Ionospheric Path Delay. [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. Luigi Tosi, Cristina Da Lio, Tazio Strozzi, and Pietro Teatini. Combining L- and X-Band SAR Interferometry to Assess Ground Displacements in Heterogeneous Coastal Environments: The Po River Delta and Venice Lagoon, Italy. Remote Sensing, 8(4):308, 2016. [Abstract] [bibtex-entry]



9. Alberto Villa, Lorenzo Iannini, Davide Giudici, Andrea Monti-Guarnieri, and Stefano Tebaldini. Calibration of SAR Polarimetric Images by Means of a Covariance Matching Approach. IEEE Trans. Geosci. Remote Sens., 53(2):674-686, February 2015. Keyword(s): Faraday effect, calibration, covariance analysis, numerical analysis, optimisation, parameter estimation, radar imaging, radar polarimetry, synthetic aperture radar, Faraday rotation, SAR polarimetric imaging, corner reflector, covariance matching approach, intrinsic ambiguity identification, numerical method, optimization, polarimetric calibration, repeated full polarimetric ALOS PALSAR imaging, retrieved distortion parameter stability, synthetic aperture radar, system polarimetric distortion parameter estimation, Calibration, Eigenvalues and eigenfunctions, Estimation, Faraday effect, Noise, Sensitivity, Thyristors, Covariance matching, Faraday rotation, numerical methods, polarimetric calibration. [Abstract] [bibtex-entry]



10. Mariko S. Burgin, D. Clewley, R. M. Lucas, and Mahta Moghaddam. A Generalized Radar Backscattering Model Based on Wave Theory for Multilayer Multispecies Vegetation. IEEE Transactions on Geoscience and Remote Sensing, 49(12):4832-4845, December 2011. Keyword(s): backscatter, radar polarimetry, remote sensing by radar, vegetation, AIRSAR data, ALOS PALSAR, Advanced Land Observing Satellite, Airborne Synthetic Aperture Radar data, Australia, NASA JPL, NASA Jet Propulsion Laboratory, Phased Arrayed L-band Synthetic Aperture Radar data, Queensland, distorted Born approximation, generalized radar backscattering model, microwave interaction, multilayer multispecies vegetation, polarimetric radar backscattering coefficients, single species discrete scatterer model, soil moisture, structurally complex vegetation, surface model, surface roughness parameterization, two layer crown trunk models, wave theory, wooded savanna sites, Backscatter, Data models, Mathematical model, Scattering, Synthetic aperture radar, Vegetation, Forest scattering, multispecies vegetation, synthetic aperture radar (SAR) backscattering, wave theory. [Abstract] [bibtex-entry]



11. David Small. Flattening Gamma: Radiometric Terrain Correction for SAR Imagery. IEEE Trans. Geosci. Remote Sens., 49(8):3081-3093, August 2011. Keyword(s): SAR Processing, ASAR, ERS-1, Earth ellipsoid model, Earth terrain-model, PALSAR, RADARSAT-1, SAR sensors, TerraSAR-X, beta nought SAR radiometry, elevation models, gamma nought SAR radiometry, image geolocation accuracy, radar cross section, radar imaging, radar measurements, radar scattering, radar terrain factors, radiometric calibration, radiometric normalisation standard, sigma nought SAR radiometry, terrain variations, radar cross-sections, radar imaging, radiometry, synthetic aperture radar, terrain mapping. [Abstract] [bibtex-entry]



12. Michael Jehle, Othmar Frey, David Small, and Erich Meier. Measurement of Ionospheric TEC in Spaceborne SAR Data. IEEE Trans. Geosci. Remote Sens., 48(6):2460-2468, June 2010. Keyword(s): SAR Processing, Total Electron Content Estimation, TEC Estimation, Ionospheric TEC, Faraday Rotation, Path Delay, Autofocus, TEC Autofocus, Spaceborne SAR, L-Band, ALOS, Phased Array L-band SAR, PALSAR, P-Pand, Simulation, Calibration. [Abstract] [bibtex-entry]



13. Howard A. Zebker, Scott Hensley, Piyush Shanker Agram, and C. Wortham. Geodetically Accurate InSAR Data Processor. IEEE Trans. Geosci. Remote Sens., 48(12):4309-4321, December 2010. Keyword(s): SAR Processing, InSAR data processor, focus correction phase terms, image distortion, interferometric synthetic aperture radar, motion-compensation techniques, orbit tracking, radar echoes, radar interferometry, topography-corrected interferograms, motion compensation, radar interferometry, synthetic aperture radar;. [Abstract] [bibtex-entry]



14. Michael Jehle, Maurice Rüegg, Lukas Zuberbühler, David Small, and Erich Meier. Measurement of Ionospheric Faraday Rotation in Simulated and Real Spaceborne SAR Data. IEEE Trans. Geosci. Remote Sens., 47(5):1512-1523, May 2009. Keyword(s): SAR Processing, Ionosphere, ALOS PALSAR, Advanced Land Observing Satellite, Earth's magnetic field, PALSAR data, Phased Array L-band Synthetic Aperture Radar, focused radar images, frequency-modulated electromagnetic wave traverse, ionospheric Faraday Rotation measurement, radar polarimetry, range-compressed, signal chirp bandwidth effects, signal path delays, spaceborne SAR data, spaceborne synthetic aperture radar, total electron content, TEC, Faraday effect, ionospheric electromagnetic wave propagation, radar polarimetry, radar signal processing, remote sensing by radar, synthetic aperture radar. [Abstract] [bibtex-entry]



15. Franz J. Meyer and J.B. Nicoll. Prediction, Detection, and Correction of Faraday Rotation in Full-Polarimetric L-Band SAR Data. IEEE Trans. Geosci. Remote Sens., 46(10):3076-3086, Oct. 2008. Keyword(s): Faraday effect, electromagnetic wave polarisation, ionospheric disturbances, ionospheric electromagnetic wave propagation, ionospheric techniques, radar polarimetry, radiowave propagation, remote sensing by radar, spaceborne radar, synthetic aperture radarAdvanced Land Observing Satellite, Faraday rotation correction, Faraday rotation detection, Faraday rotation estimation, Faraday rotation prediction, PALSAR, SAR data quality degradation, data continuity, full polarimetric L-band SAR data, geophysical parameter recovery accuracy, kilometer scale ionospheric disturbances, spaceborne L-band SAR instrument, synthetic aperture radar. [Abstract] [bibtex-entry]

Conference articles

1. Tazio Strozzi, Rafael Caduff, Nina Jones, Andrea Manconi, and Urs Wegm�ller. L-Band StripMap-ScanSAR Persistent Scatterer Interferometry in Alpine Environments with ALOS-2 PALSAR-2. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 1644-1647, 2022. [bibtex-entry]



2. 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]



3. H. Liao and F. J. Meyer. Ionospheric effect correction of ice motion mapping using interferometric synthetic aperture radar. In Proc. IEEE Int. Geoscience and Remote Sensing Symp. (IGARSS), pages 6502-6504, July 2016. Keyword(s): adaptive filters, geophysical signal processing, glaciology, ice, ionosphere, radar interferometry, remote sensing by radar, synthetic aperture radar, AD 1990, Antarctica, C-band ERS1-2, Envisat ASAR, Greenland, InSAR-based ionospheric correction, L-band ALOS 1-2 PALSAR SAR data, Radarsat-1-2, Sentinel-1, X band TerraSAR-X, adaptive filter technique, automatic phase unwrapping error correction, coregistration technique, differential ionospheric phase signal, error correction algorithm, filter-based method, ice mass balance, ice motion analysis, ice motion mapping, ice motion monitoring, ice sheet, ice velocity, interferogram, interferometric synthetic aperture radar, ionospheric effect correction, ionospheric error, ionospheric phase delay, sea level rise, split spectrum technique, Ice, Ionosphere, L-band, Monitoring, Sea level, Synthetic aperture radar. [bibtex-entry]



4. R. Brcic, A. Parizzi, M. Eineder, R. Bamler, and F. Meyer. Ionospheric effects in SAR interferometry: An analysis and comparison of methods for their estimation. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 1497-1500, July 2011. Keyword(s): ionospheric electromagnetic wave propagation, ionospheric techniques, radar interferometry, synthetic aperture radar, C-band system, L-band ALOS-PALSAR acquisitions, L-band system, P-band system, SAR signal, X-band frequencies, dispersive effects, ionospheric compensation, ionospheric effects, phase error, repeat-pass SAR interferometry, spaceborne SAR systems, topographic retrieval, wideband interferometry, Azimuth, Bandwidth, Delay, Estimation, Interferometry, Ionosphere, Synthetic aperture radar, delta-k, ionosphere, split-spectrum. [Abstract] [bibtex-entry]



5. Charles L. Werner, Urs Wegmuller, Othmar Frey, and Maurizio Santoro. Interferometric processing of PALSAR Wide-Beam SCANSAR Data. In Proc. FRINGE 2011, ESA SP-697, Frascati, Italy, September 2011. Keyword(s): SAR Processing, Interferometry, InSAR, SAR Interferometry, PALSAR, ALOS PALSAR, ScanSAR, L-Band, Spaceborne SAR. [Abstract] [bibtex-entry]



6. R. Brcic, A. Parizzi, M. Eineder, R. Bamler, and F. Meyer. Estimation and compensation of ionospheric delay for SAR interferometry. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 2908-2911, July 2010. Keyword(s): compensation, data acquisition, ionospheric electromagnetic wave propagation, radar interferometry, radiowave propagation, remote sensing by radar, spaceborne radar, synthetic aperture radar, L-band ALOS-PALSAR acquisition, L-band system, SAR interferometry, SAR signal propagation, X-band frequency, dispersive effect, ionospheric delay compensation, ionospheric delay estimation, phase error, spaceborne SAR system, synthetic aperture rada, Azimuth, Bandwidth, Delay, Estimation, Frequency estimation, Ionosphere, L-band, delta-k, ionosphere, split-spectrum, wideband interferometry. [Abstract] [bibtex-entry]



7. Paul A. Rosen, Scott Hensley, and Curtis Chen. Measurement and mitigation of the ionosphere in L-band Interferometric SAR data. In 2010 IEEE Radar Conference, pages 1459-1463, May 2010. Keyword(s): SAR Processing, cartography, image registration, ionosphere, ionospheric measuring apparatus, radar imaging, radar interferometry, synthetic aperture radar, ALOS PALSAR data, L-band InSAR data, PALSAR spectral band, bandwidth 28 MHz, deformation maps, differential TEC estimation, dispersive medium, earth changing surface, image registration, ionosphere measurement, ionosphere mitigation, multifrequency split-spectrum processing technique, nondispersive effects, pixel-by-pixel observation, radar waveform, relative phase change measurement, satellite-based repeat-pass interferometric synthetic aperture radar, split spectrum technique, subtle deformation signatures, synoptic high spatial resolution, Atmosphere, Atmospheric measurements, Delay effects, Dispersion, Earth, Ionosphere, L-band, Phase measurement, Spatial resolution, Synthetic aperture radar interferometry. [Abstract] [bibtex-entry]



8. Leif J. Harcke. Time-domain backprojection for precise geodetic coding of spaceborne SAR imagery. In Radar Conference, 2009 IEEE, pages 1-3, May 2009. Keyword(s): SAR Processing, TDBP, Time-Domain Back-Projection, ALOS/PALSAR instrument, D-InSAR, WGS-84 Cartesian system, backprojection image formation, differential radar interferometry, geocoded image production, geodetic coding, position measurement, precise-orbit determination, reflector, space-borne SAR, spaceborne SAR imagery, time-domain back-projection, geodesy, position measurement, radar imaging, radar interferometry, spaceborne radar, synthetic aperture radar. [Abstract] [bibtex-entry]



9. Alessandro Parizzi, Xiaoying Cong, and Michael Eineder. First Results from Multifrequency Interferometry. A comparison of different decorrelation time constants at L-, C-, and X-Band. In Proc. FRINGE 2009, Frascati, Italy, pages 1-5, September 2009. Keyword(s): SAR Processing, Decorrelation, Temporal Decorrelation, Differential Interferometry, DInSAR, SAR Interferometry, Coherence. [Abstract] [bibtex-entry]



10. David Small, Nuno Miranda, and Erich Meier. A revised radiometric normalisation standard for SAR. In Proc. IEEE Int. Geosci. Remote Sens. Symp., volume 4, pages 566-569, July 2009. Keyword(s): SAR Processing, ASAR, ERS-1, Earth ellipsoid model, Earth terrain-model, PALSAR, RADARSAT-1, SAR sensors, TerraSAR-X, beta nought SAR radiometry, elevation models, gamma nought SAR radiometry, image geolocation accuracy, radar cross section, radar imaging, radar measurements, radar scattering, radar terrain factors, radiometric calibration, radiometric normalisation standard, sigma nought SAR radiometry, terrain variations, radar cross-sections, radar imaging, radiometry, synthetic aperture radar, terrain mapping. [Abstract] [bibtex-entry]



11. P.A. Rosen, S. Hensley, and C. Le. Observations and mitigation of RFI in ALOS PALSAR SAR data: Implications for the DESDynI mission. In IEEE Radar Conference, pages 1-6, May 2008. Keyword(s): DESDynI mission, L-band polarimetric radar, RFI, SAR data, radio frequency interference, synthetic aperture radar, radiofrequency interference, synthetic aperture radar. [Abstract] [bibtex-entry]

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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.

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