Publications about 'Weather'

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. Howard Zebker. Accuracy of a Model-Free Algorithm for Temporal InSAR Tropospheric Correction. Remote Sensing, 13(3), 2021. Keyword(s): SAR Processing, Interferometry, SAR Interferometry, DInSAR, InSAR, atmosphere, troposphere, APS, atmospheric phase screen, correction, atmospheric correction, tropospheric correction, path delay, tropospheric path delay, time series, deformation, displacement, deformation monitoring, monitoring. [Abstract] [bibtex-entry]



2. Marco Manzoni, Andrea Virgilio Monti-Guarnieri, Eugenio Realini, and Giovanna Venuti. Joint Exploitation of SAR and GNSS for Atmospheric Phase Screens Retrieval Aimed at Numerical Weather Prediction Model Ingestion. Remote Sensing, 12(4), 2020. [Abstract] [bibtex-entry]



3. 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]



4. Marion Heublein, Fadwa Alshawaf, Bastian Erdnüss, Xiao Xiang Zhu, and Stefan Hinz. Compressive sensing reconstruction of 3D wet refractivity based on GNSS and InSAR observations. Journal of Geodesy, 93(2):197-217, 2019. Keyword(s): SAR Processing, Compressive Sensing, Tropospheric Path Delay, Synthetic Aperture Radar, Atmospheric Modelling, Atmospheric modeling, Meteorology, radar interferometry, synthetic aperture radar (SAR), SAR Tomography, GNSS, InSAR, Tropospheric Wet Path Delay. [Abstract] [bibtex-entry]



5. Zhongbo Hu and Jordi J. Mallorqui. An Accurate Method to Correct Atmospheric Phase Delay for InSAR with the ERA5 Global Atmospheric Model. Remote Sensing, 11(17), 2019. [Abstract] [bibtex-entry]



6. Martina Lagasio, Antonio Parodi, Luca Pulvirenti, Agostino N. Meroni, Giorgio Boni, Nazzareno Pierdicca, Frank S. Marzano, Lorenzo Luini, Giovanna Venuti, Eugenio Realini, Andrea Gatti, Giulio Tagliaferro, Stefano Barindelli, Andrea Monti Guarnieri, Klodiana Goga, Olivier Terzo, Alessio Rucci, Emanuele Passera, Dieter Kranzlmueller, and Bjorn Rommen. A Synergistic Use of a High-Resolution Numerical Weather Prediction Model and High-Resolution Earth Observation Products to Improve Precipitation Forecast. Remote Sensing, 11(20), 2019. Keyword(s): SAR Processing, Weather, Forecasting, Precipitation Forecasting, SAR, GNSS, Zenith Path Delay, Troposphere. [Abstract] [bibtex-entry]



7. Karina Wilgan, Muhammad Adnan Siddique, Tazio Strozzi, Alain Geiger, and Othmar Frey. Comparison of Tropospheric Path Delay Estimates from GNSS and Space-Borne SAR Interferometry in Alpine Conditions. Remote Sensing, 11(15):1-24, July 2019. Note: 1789. Keyword(s): SAR Processing, persistent scatterer interferometry, PSI, DInSAR, multibaseline interferometry, interferometric stacking, deformation monitoring, subsidence monitoring, urban, urban remote sensing, buildings, estimation, remote sensing, synthetic aperture radar, thermal expansion, tomography, urban areas, alpine, rugged terrain, atmospheric phase, atmospheric phase screen, APS, mitigation of atmospheric phase, turbulent atmospheric phase in alpine areas, Cosmo-SkyMed, Zermatt, Mattertal, Matter valley, Switzerland, multi-baseline interferometry, GNSS, GPS, Comparison, tropospheric path delay, Collocation, Kriging. [Abstract] [bibtex-entry]



8. Othmar Frey. Synthetic Aperture Radar. In Douglas Richardson, editor, International Encyclopedia of Geography: People, the Earth, Environment, and Technology, pages 1-24. Wiley, 2017. Keyword(s): Synthetic Aperture Radar, SAR, Imaging, microwave imaging, radar systems, biosphere, carbon sequestration, co-seismic displacement, crustal deformation, data acquisition, digital earth, earth observation, earth system science, geocomputation, geodesy, geohazards, geomatics, geophysical signal processing, geospatial information, GIScience, ground deformation/subsidence monitoring, interferometry, land cover, land use change, mapping, microwave remote sensing, polarimetry, radar remote sensing, remote sensing, topography, volcano monitoring. [Abstract] [bibtex-entry]



9. Karina Wilgan, Fabian Hurter, Alain Geiger, Witold Rohm, and Jaroslaw Bosy. Tropospheric refractivity and zenith path delays from least-squares collocation of meteorological and GNSS data. Journal of Geodesy, 91(2):117-134, 2017. [Abstract] [bibtex-entry]



10. 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]



11. 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]



12. David P.S. Bekaert, R.J. Walters, Tim J. Wright, Andrew J. Hooper, and D.J. Parker. Statistical comparison of InSAR tropospheric correction techniques. Remote Sensing of Environment, 170:40-47, December 2015. Keyword(s): SAR Interferometry, Atmosphere, Tropospheric Corrections, Phase-based Spectrometers, Weather models, InSAR, Interferometry. [bibtex-entry]



13. Astor T. Caicoya, Matteo Pardini, Irena Hajnsek, and Konstantinos P. Papathanassiou. Forest Above-Ground Biomass Estimation From Vertical Reflectivity Profiles at L-Band. IEEE Geosci. Remote Sens. Lett., 12(12):2379-2383, December 2015. Keyword(s): SAR Processing, SAR Tomography, L-band, Capon, forestry, vegetation mapping, L-band reflectivity profiles, SAR tomography, forest above-ground biomass estimation, forest stand densities, height measurements, root-mean-square error, vertical forest structure information, vertical radar reflectivity profiles, vertical reflectivity profiles, Biomass, Estimation, Image color analysis, L-band, Remote sensing, Synthetic aperture radar, Forest allometry, L-band, forest biomass, synthetic aperture radar (SAR) tomography, vertical forest structure, vertical reflectivity profiles. [Abstract] [bibtex-entry]



14. Silvan Leinss, Giuseppe Parrella, and Irena Hajnsek. Snow height determination by polarimetric phase differences in X-band SAR data. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 7(9):3794-3810, Sept 2014. Keyword(s): hydrological techniques, remote sensing by radar, snow, synthetic aperture radar, AD 2012 01, AD 2012 12 to 2013 04, CPD temporal evolution, Finland, HH polarization, Sodankylae city, TanDEM-X, TanDEM-X acquisitions, TerraSAR-X acquisitions, VV polarization, X-band SAR acquisitions, X-band SAR data, aligned elliptical particles, computer tomography observations, copolar phase difference, fresh snow depth, polarimetric phase difference, snow height determination, snow microstructure, subsequent recrystallization process, temperature-gradient-driven recrystallization process, weather station data, Backscatter, Scattering, Snow, Soil, Soil measurements, Synthetic aperture radar, Temperature measurement, Birefringence, TanDEM-X, TerraSAR-X, VV-HH phase difference, copolar phase difference, dry snow, fresh snow, polarimetry, snow anisotropy, snow microstructure, synthetic aperture radar. [Abstract] [bibtex-entry]



15. Alberto Moreira, Pau Prats-Iraola, Marwan Younis, Gerhard Krieger, Irena Hajnsek, and Konstantinos P. Papathanassiou. A tutorial on synthetic aperture radar. IEEE Geoscience and Remote Sensing Magazine, 1(1):6-43, March 2013. Keyword(s): SAR Processing, Tutorial, SAR Focusing, Azimuth Focusing, SAR Interferometry, SAR Polarimetry, polarimetric interferometry, PolInSAR, InSAR, SAR Tomography, geophysical techniques, radar interferometry, radar polarimetry, remote sensing by radar, synthetic aperture radar, Earth remote sensing, bistatic configurations, differential interferometry, digital beamforming, holographic tomography, multiple-input multiple-output, multistatic configurations, polarimetric SAR interferometry, polarimetry, synthetic aperture radar, Radar imaging, Remote sensing, Scattering, Spaceborne radar, Synthetic aperture radar, Tutorial, Teaching Material, Teaching. [Abstract] [bibtex-entry]



16. Marc Simard, Scott Hensley, Marco Lavalle, Ralph Dubayah, Naiara Pinto, and Michelle Hofton. An Empirical Assessment of Temporal Decorrelation Using the Uninhabited Aerial Vehicle Synthetic Aperture Radar over Forested Landscapes. Remote Sensing, 4(4):975-986, 2012. Keyword(s): SAR Processing, Decorrelation, Temporal Decorrelation, Differential Interferometry, DInSAR, SAR Interferometry, Coherence, Airborne SAR, UAVSAR, L-Band. [Abstract] [bibtex-entry]



17. Othmar Frey, Christophe Magnard, Maurice Rüegg, and Erich Meier. Focusing of Airborne Synthetic Aperture Radar Data from Highly Nonlinear Flight Tracks. IEEE Trans. Geosci. Remote Sens., 47(6):1844-1858, June 2009. Keyword(s): SAR Processing, Time-Domain Back-Projection, Back-Projection, TDBP, Non-Linear Flight Tracks, Curvilinear SAR, Extended Chirp Scaling, ECS, Mosaicking, Geocoding, Azimuth Focusing, Integrated Focusing and Geocoding, Georeferencing, mapping, corridor mapping, E-SAR, L-Band, digital elevation model, Airborne SAR. [Abstract] [bibtex-entry]



18. Jan Askne and H. Nordius. Estimation of tropospheric delay for microwaves from surface weather data. Radio Science, 22(3):379-386, 1987. [Abstract] [bibtex-entry]



19. Leroy C. Graham. Synthetic interferometer radar for topographic mapping. Proceedings of the IEEE, 62(6):763-768, June 1974. Keyword(s): SAR Processing, SAR Interferometry, InSAR, Radar imaging, Radar antennas, Position measurement, Radar measurements, Optical films, Production, Airborne radar, Clouds, Aircraft navigation, Coordinate measuring machines. [Abstract] [bibtex-entry]



20. H. S. Hopfield. Tropospheric Effect on Electromagnetically Measured Range: Prediction from Surface Weather Data. Radio Science, 6(3):357-367, 1971. [Abstract] [bibtex-entry]

Conference articles

1. C. Derksen, J. King, S. Belair, C. Garnaud, V. Vionnet, V Fortin, J. Lemmetyinen, Y. Crevier, P. Plourde, B. Lawrence, H. van Mierlo, G. Burbidge, and P. Siqueira. Development of the Terrestrial Snow Mass Mission. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 614-617, July 2021. IEEE. Keyword(s): Radar Remote Sensing, snow, Terrestrial Snow Mass Mission, TSMM, Ku-band, Ka-band. [Abstract] [bibtex-entry]



2. W. M. Boerner, G. Krieger, A. Reigber, I. Hajnsek, C. C. Schmullius, A. Moreira, M. Eineder, R. Bamler, F. J. Meyer, S. Hensley, J. J. van Zyl, M. Neumann, M. Shimada, M. Ohki, J. T. S. Sumantyo, K. Hattori, F. J. Ocampo-Torres, O. Ponce, J. Moreira, J. Campos, L. Yi-Long, P. Dubois-Fernandez, E. Pottier, T. LeToan, C. Surussavadee, V. C. Koo, T. S. Lim, R. H. Triharjanto, W. Hasbi, S. Mohan, and G. Singh. Development of new multi-band equatorially orbiting POLinSAR satellite sensors system configurations for varying latitudinal coverage within total tropical belt: Invited group presentation for establishing an associated Consortium. In Proc. IEEE 5th Asia-Pacific Conf. Synthetic Aperture Radar (APSAR), pages 342-345, September 2015. Keyword(s): meteorological radar, radar interferometry, radar polarimetry, remote sensing by radar, energy resources, global weather phenomena, latitudinal coverage, local environmental deterioration, mineral extraction, multiband equatorially orbiting POLINSAR satellite sensors, polarimetric POLINSAR satellite, stable food base, total tropical belt, Belts, Hazards, Orbits, Remote sensing, Satellites, Sensors, Synthetic aperture radar, Disaster assessment and reduction, Environmental remote sensing, Equatorial orbiting satellite sensors, Geophysical monitoring, Natural and manmade hazard detection, Polarimetric Synthetic Aperture Radar (SAR), Polarization radar, Surveillance, Tropical Equatorial Belt (TEB). [bibtex-entry]



3. 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]



4. Stephan Palm, Anika Maresch, and Uwe Stilla. Investigation on Circular Mapping by FMCW-SAR on Small Airplanes. In International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume XL-1/W1, ISPRS Hannover Workshop, 2013. [Abstract] [bibtex-entry]



5. Stephan Stanko, Winfried Johannes, Rainer Sommer, Alfred Wahlen, Jörn. Wilcke, Helmut Essen, Axel Tessmann, and Ingmar Kallfass. SAR with MIRANDA - millimeterwave radar using analog and new digital approach. In Proc. European Radar Conference, pages 214-217, October 2011. Keyword(s): SAR Processing, FMCW, Frequency-Modulated Continuous-Wave, Ka-Band, W-Band, Airborne SAR, millimetre wave radar, radar imaging, synthetic aperture radar, IMU, MIRANDA, SAR, SAR-processing, UAV, analog approach, digital approach, frequency generation module, image scenes, inertial measurement unit, microlight, millimeterwave radar, synthetic aperture radar system, unmanned aerial vehicles, Chirp, Radar antennas, Radar imaging, Radar measurements, Synthetic aperture radar, Wavelength measurement. [Abstract] [bibtex-entry]



6. Othmar Frey, Christophe Magnard, Maurice Rüegg, and Erich Meier. Focusing SAR Data Acquired From Non-Linear Sensor Trajectories. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 415-418, 2008. Keyword(s): SAR Processing, Time-Domain Back-Projection, Back-Projection, Nonlinear Flight Tracks, Curvilinear SAR, Extended Chirp Scaling, ECS, Mosaicking, Geocoding, Integrated Focusing and Geocoding, Georeferencing, mapping, corridor mapping, E-SAR, L-Band, digital elevation model, Airborne SAR. [Abstract] [bibtex-entry]



7. Othmar Frey, Christophe Magnard, Maurice Rüegg, and Erich Meier. Non-Linear SAR Data Processing By Time-Domain Back-Projection. In Proc. EUSAR 2008 - 7th European Conference on Synthetic Aperture Radar, pages 165-168, 2008. Keyword(s): SAR Processing, Time-Domain Back-Projection, Back-Projection, Non-Linear Flight Tracks, Curvilinear SAR, Extended Chirp Scaling, ECS, Mosaicking, Geocoding, Integrated Focusing and Geocoding, Georeferencing, mapping, corridor mapping.E-SAR, L-Band, digital elevation model, Airborne SAR. [Abstract] [bibtex-entry]



8. Andreas Wiesmann, Charles L. Werner, Christian Matzler, Martin Schneebeli, Tazio Strozzi, and Urs Wegmuller. Mobile X- to Ku-band Scatterometer in Support of the CoRe-H2O Mission. In Proc. IEEE Int. Geosci. Remote Sens. Symp., volume 5, pages 244-247, July 2008. 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]



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. C. Neumann, G. Weiss, A. Wahlen, and T. Brehm. Ground surveillance with mmW radar for border control and camp protection applications. In Proc. European Microwave Conference, pages 700-703, October 2007. Keyword(s): SAR Processing, W-Band, Airborne SAR, UAV, Fraunhofer, military radar, search radar, terrorism, automatic detection, automatic recognition, border control, camp protection application, ground surveillance, light weight miniature sensors, millimetre wave region, mmW radar, moving hostile objects, peace enforcing missions, peacekeeping missions, portable 35-GHz radar, terrorism, Bandwidth, Costs, Meteorological radar, Protection, Radar applications, Radar clutter, Signal resolution, Snow, Surveillance, Terrorism. [Abstract] [bibtex-entry]



11. Ian G. Cumming and John R. Bennett. Digital processing of SEASAT SAR data. In Proc. Rec. IEEE Int. Conf. Acoust., Speech Signal, volume 4, Washington, DC, pages 710-718, April 1979. Keyword(s): SAR Processing, Seasat, Spaceborne SAR, Range Compression, Azimuth Compression, Azimuth Focusing. [Abstract] [bibtex-entry]

Internal reports

1. Malcolm Davidson, Marco Chini, Wolfgang Dierking, Samuel Djavidnia, Joerg Haarpaintner, Guillaume Hajduch, Gaia Vaglio Laurin, Marco Lavalle, Carlos Lopez Martinez, Thomas Nagler, Nazzarreno Pierdicca, and Bob Su. Copernicus L-band SAR Mission Requirements Document (MRD). Technical report 2.0, ESA/ESTEC, October 2019. Note: ESA-EOPSM-CLIS-MRD-3371. Keyword(s): L-band, ROSE-L, Copernicus, Copernicus L-band SAR, ESA, spaceborne SAR, SAR Interferometry, deformation, displacement, ground motion, geohazards, sea ice types, detection of icebergs, forest, monitoring, changes in global forest carbon stocks, carbon stocks, Agriculture, food security, mapping of water availability, water use, soil moisture, moisture, glacier, ice sheets, climate change, maritime surveillance. [Abstract] [bibtex-entry]

Miscellaneous

1. Othmar Frey, Charles Werner, Andrea Manconi, and Roberto Coscione. High-resolution mobile mapping of slope stability with car- and UAV-borne InSAR systems, 2022. Note: EGU General Assembly 2022; Conference Location: Vienna, Austria; Conference Date: May 23-27, 2022; Conference lecture held on May 25, 2022. [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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