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Publications about 'snow water equivalent (SWE)'

Articles in journal or book chapters

  1. Achille Capelli, Franziska Koch, Patrick Henkel, Markus Lamm, Florian Appel, Christoph Marty, and Jürg Schweizer. GNSS signal-based snow water equivalent determination for different snowpack conditions along a steep elevation gradient. The Cryosphere, 16(2):505-531, September 2022. Keyword(s): GNSS, Snow water equivalent, SWE, Liquid water content (LWC), snow height, Davos, Laret, Weissfluhjoch, Küblis, snow, SLF, WSL. [Abstract] [bibtex-entry]


  2. 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]


  3. Emanuele Santi, Marco Brogioni, Marion Leduc-Leballeur, Giovanni Macelloni, Francesco Montomoli, Paolo Pampaloni, Juha Lemmetyinen, Juval Cohen, Helmut Rott, Thomas Nagler, Chris Derksen, Joshua King, Nick Rutter, Richard Essery, Cecile Menard, Melody Sandells, and Michael Kern. Exploiting the ANN Potential in Estimating Snow Depth and Snow Water Equivalent From the Airborne SnowSAR Data at X- and Ku-Bands. IEEE Transactions on Geoscience and Remote Sensing, pp 1-16, 2021. Keyword(s): SAR Processing, Artificial neural networks (ANNs), dense medium radiative transfer (DMRT), quasi Mie scattering (QMS) model, snow depth (SD), snow water equivalent (SWE), SnowSAR, synthetic aperture radar, SAR. [Abstract] [bibtex-entry]


  4. 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]


  5. Franziska Koch, Patrick Henkel, Florian Appel, Lino Schmid, Heike Bach, Markus Lamm, Monika Prasch, J�rg Schweizer, and Wolfram Mauser. Retrieval of Snow Water Equivalent, Liquid Water Content, and Snow Height of Dry and Wet Snow by Combining GPS Signal Attenuation and Time Delay. Water Resources Research, 55(5):4465-4487, 2019. Keyword(s): GNSS, snow water equivalent, liquid water content, snow cover, SnowSense, GNSS signals, Global Positioning System. [Abstract] [bibtex-entry]


  6. Aaron Thompson, Richard Kelly, and Joshua King. Sensitivity of Ku- and X-Band Radar Observations to Seasonal Snow in Ontario, Canada. Canadian Journal of Remote Sensing, 45(6):829-846, 2019. Keyword(s): Microwave remote sensing, radar, radar remote sensing, Snow, Snow Water Equivalent (SWE), remote sensing of snow, seasonal snow, Ku-band, X-band. [Abstract] [bibtex-entry]


  7. Patrick Henkel, Franziska Koch, Florian Appel, Heike Bach, Monika Prasch, Lino Schmid, J�rg Schweizer, and Wolfram Mauser. Snow Water Equivalent of Dry Snow Derived From GNSS Carrier Phases. IEEE Transactions on Geoscience and Remote Sensing, 56(6):3561-3572, June 2018. Keyword(s): GNSS, Snow water equivalent, SWE, Davos, Weissfluhjoch. [Abstract] [bibtex-entry]


  8. 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]


  9. 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]


  10. T. Guneriussen, K.A. Hogda, H. Johnsen, and I. Lauknes. InSAR for estimation of changes in snow water equivalent of dry snow. IEEE Transactions on Geoscience and Remote Sensing, 39(10):2101-2108, October 2001. Keyword(s): snow, DInSAR, snow water equivalent, SWE, radar, SAR interferometry, InSAR. [Abstract] [bibtex-entry]


Conference articles

  1. D. R. Boyd, A. M. Alam, M. Kurum, A. C. Gurbuz, and B. Osmanoglu. Preliminary Snow Water Equivalent Retrieval of SnowEX20 SWESARR Data. In Proc. IEEE Int. Geosci. Remote Sens. Symp., pages 3927-3930, July 2022. [Abstract] [bibtex-entry]


  2. 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]


  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. Othmar Frey, Charles L. Werner, Rafael Caduff, and Andreas Wiesmann. A time series of tomographic profiles of a snow pack measured with SnowScat at X-/Ku-Band. In Proc. IEEE Int. Geosci. Remote Sens. Symp., volume 1, pages 17-20, July 2016. Keyword(s): SAR Processing, SAR Tomography, Tomographic profiling, SnowScat, ESA, European Space Agency, X-Band, Ku-Band, Polarimetry, ground-based radar, Snow, Snowpack, geophysical signal processing, radar polarimetry, synthetic aperture radar. [Abstract] [bibtex-entry]


  5. 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]


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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.




Last modified: Fri Feb 24 14:25:00 2023
Author: Othmar Frey, Earth Observation and Remote Sensing, Institute of Environmental Engineering, Swiss Federal Institute of Technology - ETH Zurich .


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