SEARCH

SEARCH BY CITATION

References

  • Baghdadi, N., Y. Gauthier, M. Bernier, Capability of multitemporal ERS-1 SAR data for wet-snow mapping, Remote Sens. Environ., 60, 174186, 1997.
  • Bernier, M., J. Fortin, The potential of times series of C band SAR data to monitor dry and shallow snow cover, IEEE Trans. Geosci. Remote Sens., 36, 226243, 1998.
  • Ferrand, L. A., J. A. Sulayman, A computational investigation of some effects of temperature on soil moisture, Water Resour. Res., 32, 34293463, 1996.
  • Fung, A. K., Z. Li, K. S. Chen, Backscattering from a randomly rough dielectric surface, IEEE Trans. Geosci. Remote Sens., 30, 356369, 1992.
  • Gow, A. J., Depth-Time-Temperature relationships of ice crystal growth in polar glaciersRes. Rep. 300, 20Corps of Engineers, U.S. Army Cold Reg. Res. and Eng. Lab., Hanover, N.H., 1971.
  • Hallikainen, M., F. T. Ulaby, M. C. Dobson, and M. El-Rayes, Dielectric measurements of soils in the 3- to 37-GHz band between -50 C and 23 CInternational Geoscience and Remote Sensing Symposium 1984Geosci. and Remote Sens. Soc.Strasbourg, FranceAug., 1984.
  • Hoekstra, P., A. Delaney, Dielectric properties of soils at UHF and microwave frequencies, J. Geophys. Res., 79, 16991708, 1974.
  • Justice, C. O., et al., The moderate resolution imaging spectroradiometer (MODIS): land remote sensing for global change research, IEEE Trans. Geosci. Remote Sens., 36, 12281249, 1998.
  • Liou, Y., A. W. England, Annual temperature and radiobrightness signatures for bare soils, IEEE Trans. Geosci. Remote Sens., 34, 981990, 1996.
  • Mandt, C. E., Y. Kuga, L. Tsang, A. Ishimaru, Microwave propagation and scattering in a dense distribution of non-tenuous spheres: experiment and theory, Waves Random Media, 2, 225234, 1992.
  • Mätzler, C., Applications of the interaction of microwaves with the natural snow cover, Rem. Sens. Rev., 2, 259387, 1987.
  • Mätzler, C., Microwave permittivity of dry snow, IEEE Trans. Geosci. Remote Sens., 34, 573581, 1996.
  • Mätzler, C., E. Schanda, Snow mapping with active microwave sensors, Int. J. Rem. Sens., 5, 409422, 1984.
  • Polder, D., J. H. vanSatten, The effective permeability of mixtures of solids, Physica, 12, 257271, 1946.
  • Rosenthal, W., J. Dozier, Automated mapping of montane snow cover at subpixel resolution from the Landsat Thematic Mapper, Water Resour. Res., 32, 115130, 1996.
  • Shi, J., J. Dozier, Estimation of snow water equivalence using SIR-C/X-SARInternational Geoscience and Remote Sensing Symposium 1996Geosci. and Remote Sens. Soc.Lincoln, Nebr., 1996.
  • Spaans, E. J. A., J. M. Baker, Examining the use of time domain reflectometry for measuring liquid water content in frozen soil, Water Resour. Res., 31, 29172925, 1995.
  • Stähli, M., D. Stadler, Measurement of water and solute dynamics in freezing soil columns with time domain reflectometry, J. Hydrology, 195, 352369, 1997.
  • Strozzi, T., A. Wiesmann, C. Mätzler, Active microwave signatures of snow covers at 5.3 and 35 GHz, Radio Sci., 32, 479495, 1997.
  • Tait, A., D. Hall, J. Foster, A. Chang, A. Klein, Detection of snow cover using millimeter-wave imaging radiometer (MIR) data, Remote Sens. Environ., 68, 5360, 1999.
  • Tang, K., R. O. Buckius, The geometric optics approximation for reflection from two-dimensional random rough surfaces, Int. J. Heat Mass Transfer, 41, 20372047, 1998.
  • Tatarskii, V. I., V. V. Tatarskii, Statistical description of rough-surface scattering using the quasi-small-slope approximation for random surfaces with a Gaussian multivariate probability distribution, Waves Random Media, 4, 191214, 1994.
  • Tice, A. R., J. L. Oliphant, The effects of magnetic particles on the unfrozen water content of frozen soils determined by nuclear magnetic resonance, Soil Sci., 138, 6373, 1984.
  • Tsang, L., J. A. Kong, R. T. Shin, Theory of Microwave Remote Sensing, 613, Wiley-Interscience, New York, 1985.
  • Tsang, L., C. Mandt, K. Ding, Monte Carlo simulations of extinction rate of dense media with randomly distributed dielectric spheres based on solution of Maxwell's equations, Opt. Lett., 17, 314316, 1992.
  • Ulaby, F. T., R. K. Moore, A. K. Fung, Microwave Remote Sensing, 2, Addison-Wesley-Longman, Reading, Mass., 1982.
  • Ulaby, F. T., R. K. Moore, A. K. Fung, Microwave Remote Sensing, 3, Addison-Wesley-Longman, Reading, Mass., 1986.
  • Wen, B., L. Tsang, D. P. Winebrenner, A. Ishimaru, Dense medium radiative transfer theory: comparison with experiment and application to microwave remote sensing and polarimetry, IEEE Trans. Geosci. Remote Sens., 28, 4659, 1990.
  • West, R. D., D. Gibbs, L. Tsang, A. K. Fung, Comparison of optical scattering experiments and the quasicrystalline approximation for dense media, J. Opt. Am. A, 11, 18541858, 1994.
  • West, R. D., D. P. Winebrenner, L. Tsang, Microwave emission from density-stratified Antarctic firn at 6 cm wavelength, J. Glaciol., 42, 6376, 1996.
  • Yisok, O., K. Sarabandi, F. Ulaby, An empirical model and an inversion technique for radar scattering from bare soil surfaces, IEEE Trans. Geosci. Remote Sens., 30, 370381, 1992.
  • Zurk, L. M., L. Tsang, D. P. Winebrenner, Scattering properties of dense media from Monte Carlo simulations with application to active remote sensing of snow, Radio Sci., 31, 803819, 1996.