Publications about 'Microwave measurements'

Articles in journal or book chapters

1. Reza Naderpour, Mike Schwank, Derek Houtz, Charles Werner, and Christian Mätzler. Wideband Backscattering From Alpine Snow Cover: A Full-Season Study. IEEE Transactions on Geoscience and Remote Sensing, 60(4302215):1-15, 2022. Keyword(s): Radar, remote sensing, snow, WBSCAT, wide-band scatterometer, ESA SnowLab. [Abstract] [bibtex-entry]



2. J. Pan, M. Durand, M. Sandells, J. Lemmetyinen, E. J. Kim, J. Pulliainen, A. Kontu, and C. Derksen. Differences Between the HUT Snow Emission Model and MEMLS and Their Effects on Brightness Temperature Simulation. IEEE Transactions on Geoscience and Remote Sensing, 54(4):2001-2019, April 2016. Keyword(s): radiative transfer, remote sensing, snow, HUT snow emission model, Helsinki University of Technology, brightness temperature simulation, snow water equivalent retrieval algorithm, passive microwave measurement, multiple-layer HUT model, Microwave Emission Model of Layered Snowpacks, scattered intensity, radiative transfer equation, one-flux equation, two-flux theory, HUT scattering coefficient, trapped-radiation, natural snow cover, Sodankyla, Finland, Churchill, Canada, Colorado, USA, snow grain size was, deep snow, Born approximation, root-mean-square error, Snow, Mathematical model, Scattering, Grain size, Microwave theory and techniques, Ice, Correlation, Model comparison, passive microwave remote sensing, snow, Model comparison, passive microwave remote sensing, snow. [Abstract] [bibtex-entry]



3. R. Magagi, A. A. Berg, K. Goita, S. Belair, T. J. Jackson, B. Toth, A. Walker, H. McNairn, P. E. O'Neill, Mahta Moghaddam, I. Gherboudj, A. Colliander, M. H. Cosh, Mariko S. Burgin, J. B. Fisher, S. B. Kim, I. Mladenova, N. Djamai, L. P. B. Rousseau, J. Belanger, J. Shang, and A. Merzouki. Canadian Experiment for Soil Moisture in 2010 (CanEx-SM10): Overview and Preliminary Results. IEEE Transactions on Geoscience and Remote Sensing, 51(1):347-363, January 2013. Keyword(s): land surface temperature, remote sensing, soil, vegetation, AD 2010, AD 2010 05 31 to 2010 06, AMSR-E soil moisture, CanEx-SM10, Canada, Canadian experiment, National Snow and Ice Data Center, SMOS data, SMOS mission, SMOS soil moisture product, Saskatchewan, active microwave measurement, agricultural area, airborne L-band brightness temperatures, airborne L-band radiometer data, airborne platform, boreal forested area, ocean salinity, passive microwave measurement, radio frequency, reflected soil moisture measurements, satellite platform, soil condition, soil ground-based measurements, soil moisture, soil temperature profiles, vegetation characteristics, vegetation condition, Moisture measurement, Satellites, Soil measurements, Soil moisture, Temperature measurement, Vegetation mapping, Agricultural and boreal forested areas, Soil Moisture and Ocean Salinity (SMOS), brightness temperature, soil moisture, validation. [Abstract] [bibtex-entry]



4. Sasan S. Saatchi, D. M. Le Vine, and R. H. Lang. Microwave backscattering and emission model for grass canopies. IEEE Trans. Geosci. Remote Sens., 32(1):177-186, January 1994. Keyword(s): atmospheric techniques, atmospheric temperature, geophysical techniques, hydrological techniques, radiometry, remote sensing, remote sensing by radar, soil, temperature measurement, 1.4 GHz, 4.75 GHz, C-band, L-band, UHF SHF, distorted Born approximation, elliptical disc, emission model, emissivity, geophysical measurement technique, grass canopies, grassland, hydrology, land surface, microwave backscattering, model, radar cross section, radar remote sensing, soil moisture, thatch layer, vegetation, vegetation canopy, wet Konza prairie, Backscatter, Electromagnetic heating, L-band, Microwave measurements, Microwave radiometry, Moisture measurement, Radar cross section, Radar measurements, Soil measurements, Soil moisture. [Abstract] [bibtex-entry]



5. E.K. Smith and S. Weintraub. The Constants in the Equation for Atmospheric Refractive Index at Radio Frequencies. Proceedings of the IRE, 41(8):1035-1037, August 1953. Keyword(s): Atmosphere, Atmospheric measurements, Equations, Humidity, Microwave measurements, Microwave theory and techniques, Radio frequency, Radio propagation, Refractive index, Temperature distribution. [Abstract] [bibtex-entry]

Conference articles

1. Charles L. Werner, Martin Suess, Othmar Frey, and Andreas Wiesmann. The ESA Wideband Microwave Scatterometer (WBSCAT): Design and Implementation. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 8339-8342, 2019. Keyword(s): ESA Snowlab, SnowScat, Wideband Scatterometer, WBScat, snow, microwave scatterometer, aperture synthesis, time series, polarimetry, tomography, SAR tomography. [Abstract] [bibtex-entry]



2. Andreas Wiesmann, Rafael Caduff, Charles L. Werner, Othmar Frey, Martin Schneebeli, Henning Löwe, Matthias Jaggi, Mike Schwank, Reza Naderpour, and Thorsten Fehr. ESA Snowlab Project: 4 Years of Wide Band Scatterometer Measurements of Seasonal Snow. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 5745-5748, 2019. Keyword(s): ESA Snowlab, SnowScat, Wideband Scatterometer, WBScat, snow, microwave scatterometer, aperture synthesis, time series, polarimetry, tomography, SAR tomography. [Abstract] [bibtex-entry]



3. Andreas Wiesmann, Tazio Strozzi, Charles L. Werner, Urs Wegmuller, and Maurizio Santoro. Microwave remote sensing of alpine snow. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 1223-1227, July 2007. Keyword(s): SnowScat, KuScat, microwave measurement, remote sensing by radar, snow, ASSIST, Alpine Safety, Security and Information Services and Technologies, Alpine snow, C-band SAR, CoReH2O mission, SnowScat project, avalanche maps, avalanche warning, flood management, liquid water content, microwave remote sensing, snow coverage, snow structure, Content management, Ecosystems, Information security, Knowledge management, Microwave measurements, Remote sensing, Safety, Satellites, Snow, Space technology, ASSIST, CoReH20, SnowScat, avalanche, snow. [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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