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Modelling of vegetation volumes (1985)

Vanzyl, J. J. ; Elachi, C. ; Engheta, N. ; [et al.]

In: CASI

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Publication Date: 2006-02-14

Description: The purpose is to describe work that is being done to find theoretical models to describe radar backscatter from vegetation layers. The geometry of the problem is shown. The information that one would like to find through the application of the results of these models would include: the thickness of the layer; the absorption in the layer (i.e., density, moisture content, and biomass); the geometry of the scatterers (i.e., shape and orientation); how much of the received power is due to volume scattering only; and a way to enhance the ratio of scattering that has some interaction with the ground surface. The proposed ways to find this information are discussed.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA(JPL Aircraft SAR Workshop Proc.; p 77-79

Format: text

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Modelling of backscatter from vegetation layers (1985)

Elachi, C. ; Papas, C. H. ; Zebker, H. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: A simple way to build up a library of models which may be used to distinguish between the different types of vegetation and ground surfaces by means of their backscatter properties is presented. The curve of constant power received by the antenna (Gamma sphere) is calculated for the given Stokes Scattering Operator, and model parameters are adopted of the most similar library model Gamma sphere. Results calculated for a single scattering model resembling coniferous trees are compared with the Gamma spheres of a model resembling tropical region trees. The polarization which would minimize the effect of either the ground surface or the vegetation layer can be calculated and used to analyze the backscatter from the ground surface/vegetation layer combination, and enhance the power received from the desired part of the combination.

Keywords: EARTH RESOURCES AND REMOTE SENSING

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Electromagnetic wave propagation through a dielectric-chiral interface and through a chiral slab (1988)

Bassiri, S. ; Papas, C. H. ; Engheta, N.

In: Other Sources

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Publication Date: 2011-08-19

Description: The reflection from and transmission through a semiinfinite chiral medium are analyzed by obtaining the Fresnel equations in terms of parallel- and perpendicular-polarized modes, and a comparison is made with results reported previously. The chiral medium is described electromagnetically by the constitutive relations D = (epsilon)E+i(gamma)B and H = i(gamma)E+(1/mu)B. The constants epsilon, mu and gamma are real and have values that are fixed by the size, the shape, and the spatial distribution of the elements that collectively compose the medium. The conditions are obtained for the total internal reflection of the incident wave from the interface and for the existence of the Brewster angle. The effects of the chirality on the polarization and the intensity of the reflected wave from the chiral half-space are discussed and illustrated by using the Stokes parameters. The propagation of electromagnetic wave through an infinite slab of chiral medium is formulated for oblique incidence and solved analytically for the case of normal incidence.

Keywords: COMMUNICATIONS AND RADAR

Type: Optical Society of America, Journal, A: Optics and Image Science (ISSN 0740-3232); 5; 1450-145

Format: text

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