Publications about 'Ionospheric TEC'

Articles in journal or book chapters

1. 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]



2. 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]



3. Urs Wegmuller, Charles Werner, Othmar Frey, Christophe Magnard, and Tazio Strozzi. Reformulating the Split-Spectrum Method to Facilitate the Estimation and Compensation of the Ionospheric Phase in SAR Interferograms. Procedia Computer Science, pp 318-325, 2018. Keyword(s): SAR Processing, Ionosphere, Ionospheric Path Delay, split-beam interferometry, SBI, ionospheric electromagnetic wave propagation, ionospheric techniques, radar interferometry, remote sensing by radar, split beam interferograms, along track ground displacement estimation, azimuth spectrum band pass filtering, directional scattering identification, ionospheric path delay estimation, long baseline pair coherence estimation, split beam interferometry, Azimuth, Band pass filters, Coherence, Delay, Ionosphere, Time series analysis. [bibtex-entry]



4. 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]



5. 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]



6. 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]



7. Noa B. D. Bechor and Howard A. Zebker. Measuring two-dimensional movements using a single InSAR pair. Geophysical Research Letters, 33(16):L16311 (1-5), 2006. Keyword(s): SAR Processing, ionospheric techniques, radar interferometry, synthetic aperture radar, azimuth shift, interferometric SAR ionosphere correction, ionospheric geometric distortion, Interferometry, Ionosphere, L-band, Synthetic aperture radar. [Abstract] [bibtex-entry]



8. 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, 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, synthetic aperture radar (SAR), total electron content (TEC). [Abstract] [bibtex-entry]



9. A. Laurence Gray, Karim E. Mattar, and George Sofko. Influence of ionospheric electron density fluctuations on satellite radar interferometry. Geophysical Research Letters, 27(10):1451-1454, 2000. Keyword(s): SAR Processing, ionospheric techniques, radar interferometry, synthetic aperture radar, azimuth shift, interferometric SAR ionosphere correction, ionospheric geometric distortion, Interferometry, Ionosphere, L-band, Synthetic aperture radar. [Abstract] [bibtex-entry]

Conference articles

1. H. Liao and F. J. Meyer. A combined estimator for Interferometric SAR ionosphere correction. In Proc. IEEE Int. Geoscience and Remote Sensing Symp. (IGARSS), pages 6499-6501, July 2016. Keyword(s): Faraday effect, ionospheric techniques, radar interferometry, radar polarimetry, synthetic aperture radar, Faraday rotation based method, InSAR differential ionosphere, InSAR ionospheric effect correction, azimuth shift based method, interferometric SAR ionosphere correction, interferometric synthetic aperture radar ionosphere correction, ionospheric geometric distortion, multiple aperture interferometric azimuth shift, polarimetric property, split spectrum InSAR technique, Earthquakes, Interferometry, Ionosphere, L-band, Synthetic aperture radar. [bibtex-entry]



2. G. Gomba, X. Y. Cong, and M. Eineder. Correction of ionospheric and tropospheric path delay for L-band interferograms. In Proc. IEEE Int. Geoscience and Remote Sensing Symp. (IGARSS), pages 310-313, July 2015. Keyword(s): SAR Processing, split-spectrum, split-spectrum interferometry, split-band, split-band interferometry, ionospheric electromagnetic wave propagation, ionospheric techniques, refractive index, remote sensing by radar, synthetic aperture radar, tropospheric electromagnetic wave propagation, weather forecasting, L-band interferograms, SAR data, differential atmospheric path delay, direct integration method, error source, geophysical processes, ground deformation signal, height-dependent tropospheric effects, ionospheric path delay correction, nominal value, numerical weather prediction data, radio wave delay, radio wave propagation, refractivity index variation, slant range distance, split-spectrum method, stratified delay, topography signal, tropospheric path delay correction, Atmospheric measurements, Delays, Dispersion, Ionosphere, L-band, Synthetic aperture radar, InSAR, SAR ionospheric effects, ionosphere estimation. [bibtex-entry]



3. G. Gomba and F. De Zan. Estimation of ionospheric height variations during an aurora event using multiple semi-focusing levels. In Proc. IEEE Int. Geoscience and Remote Sensing Symp. (IGARSS), pages 4065-4068, July 2015. Keyword(s): SAR Processing, split-spectrum, split-spectrum interferometry, split-band, split-band interferometry, aurora, ionospheric electromagnetic wave propagation, ionospheric techniques, remote sensing by radar, synthetic aperture radar, SAR images, SAR interferograms, aurora event, integrated-azimuth-shifts method, ionosphere scintillation, ionosphere vertical profile, ionospheric effects, ionospheric height variation estimation, ionospheric phase screen, multiple semifocusing levels, normal ionospheric state, Azimuth, Estimation, Hafnium, Ionosphere, Satellites, InSAR, SAR ionospheric effects, ionosphere estimation. [bibtex-entry]



4. Urs Wegmuller, Tazio Strozzi, and Charles Werner. Ionospheric path delay estimation using split-beam interferometry. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 3631-3634, July 2012. Keyword(s): SAR Processing, Ionosphere, Ionospheric Path Delay, split-beam interferometry, SBI, ionospheric electromagnetic wave propagation, ionospheric techniques, radar interferometry, remote sensing by radar, L-band split beam interferograms, along track ground displacement estimation, azimuth spectrum band pass filtering, directional scattering identification, ionospheric path delay estimation, long baseline pair coherence estimation, split beam interferometry, Azimuth, Band pass filters, Coherence, Delay, Ionosphere, L-band, Time series analysis, Split-beam interferometry, ionosphere, ionospheric path delay. [Abstract] [bibtex-entry]



5. 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]

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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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