• Bjerkaas, A. W., and F. W. Riedel, Proposed model for the elevation spectrum of a wind-roughened sea surface, Tech. Memo., JHU/APL TG 1328, 31 pp., Johns Hopkins Univ. Laurel, Md., 1979.
  • Brown, G. S., Backscattering from a Gaussian distributed perfectly conducting rough surface, IEEE Trans. Antennas Propag., AP-26(3), 472482, 1978.
  • Burrows, M. L., A reformulated boundary perturbation theory in electromagnetism and its application to a sphere, Can. J. Phys., 45, 17291743, 1967.
  • Burrows, M. L., On the composite model for rough surface scattering, IEEE Trans. Antennas Propag., AP-21(2), 241243, 1973.
  • Chen, M. F., and A. K. Fung, A numerical study of the region of validity of the Kirchhoff and small-perturbation rough surface scattering models, Radio Sci., 23(2), 163170, 1988.
  • Cox, C. S., and W. H. Munk, Measurements of the roughness of the sea surface from photographs of the Sun's glitter, J. Opt. Soc. Am., 44(11), 838850, 1954a.
  • Cox, C. S., and W. H. Munk, Statistics of the sea surface derived from Sun glitter, J. Mar. Res., 13(2), 198227, 1954b.
  • Craeye, C., A. Guissard, and P. Sobieski, A note on corrections often used in two-scale surface scattering models, Radio Sci., 35(5), 12531256, 2000.
  • Elfouhaily, T., B. Chapron, K. Katsaros, and D. Vandemark, A unified directional spectrum for long and short wind-driven waves, J. Geophys. Res., 102(C7), 15,78115,796, 1997.
  • Fung, A. K., Microwave Scattering and Emission Models and their Application, Artech House Norwood, Mass., 1994.
  • Fung, A. K., Z. Li, and K. S. Chen, Backscattering from a randomly rough dielectric surface, IEEE Trans. Geosci. Remote Sens., 30(2), 356369, 1992.
  • Guissard, A., Multispectra for ocean-like random rough surface scattering, J. Electromagn. Waves Appl., 10, 14131443, 1996.
  • Guissard, A., and P. Sobieski, An approximate model for the microwave brightness temperature of the sea, Int. J. Remote Sens., 8(11), 16071627, 1987.
  • Guissard, A., P. Sobieski, and C. Baufays, Comparison between the boundary perturbation approach and the classical small perturbation method for surface scattering, paper presented at IGARSS'89 Conference, Int. Geosci. and Remote Sens. Soc. Vancouver, B. C., Canada, 1989.
  • Guissard, A., P. Sobieski, and C. Baufays, A unified approach to bistatic scattering for active and passive remote sensing of rough ocean surfaces, Trends Geophys. Res., 1, 4368, 1992.
  • Kim, Y., and E. Rodriguez, Comparison of the unified perturbation method with the two-scale expansion, IEEE Trans. Geosci. Remote Sens., 30(3), 510515, 1992.
  • Lemaire, D., Non-fully developed sea state characteristics from real aperture radar remote sensing, Ph.D. thesis, 220 pp., Fac. des Sci. Appl., Univ. Cath. de Louvain, Belgium, 1998.
  • Lemaire, D., P. Sobieski, and A. Guissard, Full-range sea surface spectrum in nonfully developed state for scattering computations, IEEE Trans. Geosci. Remote Sens., 37(2), 10381051, 1999.
  • Rice, S. O., Reflection of electromagnetic waves from slightly rough surfaces, Commun. Pure Appl. Math., 4, 351378, 1951.
  • Ruck, G. T., D. E. Barrick, W. D. Stuart, and G. K. Krichbaum, Radar Cross-Section Handbook, vol. 2, Plenum New York, 1970.
  • Thorsos, E. I., and D. R. Jackson, The validity of the perturbation approximation for rough surface scattering using a Gaussian roughness spectrum, J. Acoust. Soc. Am., 86, 261277, 1989.
  • Ulaby, F. T., R. K. Moore, and A. K. Fung, Microwave Remote Sensing: Active and Passive, vol.3, Addison-Wesley-Longman Reading, Mass., 1982.
  • Voronovitch, A. G., Wave Scattering From Rough Surfaces, Springer-Verlag New York, 1994.