We evaluate how well fractals match the radar backscatter of natural backgrounds in terms of dependence on angle of incidence. We discuss the parameters that define the particular surfaces studied. Finally, we compare the radar backscatter from a range of fractals to experimental backscatter data from natural backgrounds, and we discuss the suitability of fractal surfaces as modeling surrogates for the still more complex natural backgrounds
Most natural images have 1/fβ Fourier image statistics, a signature which is mimicked by fractals an...
In this paper, rough surfaces are modeled based on the WM(Weierstrass-Mandelbrot) fractal function a...
We investigate the possibility of using fractal geometry to construct radiating elements for phased ...
In this paper the scattering of electromagnetic (EM) waves, emitted by a monostatic radar, from roug...
Abstract—In this paper, a model for radar images of fractal (topologically 1-D) profiles is introduc...
Fractal analysis of sea surface backscattering signal (sea clutter in radar terminology) represents ...
Fractal geometry is widely accepted as an efficient theory for the characterization of natural surfa...
In recent years, it has been shown that use of the Kirchhoff approximation allows expressing the fie...
Three methods for fractal dimension analysis are applied to airborne real aperture radar ocean image...
The Scattering and Emissivity of rough surfaces involve solutions to non-linear differential equatio...
This article examines fractals with reference to random models of natural surfaces, highlighting the...
International audienceIn this paper, local structure of bare soil is analyzed from the fractal point...
A general, approximate perturbation method, able to provide closed-form expressions of scattering fr...
Fractal geometry provides reliable models to describe geometrical properties of natural surfaces. Th...
A twodimensional fractional Brown motion fBm fractal model is presented which is suitable for desc...
Most natural images have 1/fβ Fourier image statistics, a signature which is mimicked by fractals an...
In this paper, rough surfaces are modeled based on the WM(Weierstrass-Mandelbrot) fractal function a...
We investigate the possibility of using fractal geometry to construct radiating elements for phased ...
In this paper the scattering of electromagnetic (EM) waves, emitted by a monostatic radar, from roug...
Abstract—In this paper, a model for radar images of fractal (topologically 1-D) profiles is introduc...
Fractal analysis of sea surface backscattering signal (sea clutter in radar terminology) represents ...
Fractal geometry is widely accepted as an efficient theory for the characterization of natural surfa...
In recent years, it has been shown that use of the Kirchhoff approximation allows expressing the fie...
Three methods for fractal dimension analysis are applied to airborne real aperture radar ocean image...
The Scattering and Emissivity of rough surfaces involve solutions to non-linear differential equatio...
This article examines fractals with reference to random models of natural surfaces, highlighting the...
International audienceIn this paper, local structure of bare soil is analyzed from the fractal point...
A general, approximate perturbation method, able to provide closed-form expressions of scattering fr...
Fractal geometry provides reliable models to describe geometrical properties of natural surfaces. Th...
A twodimensional fractional Brown motion fBm fractal model is presented which is suitable for desc...
Most natural images have 1/fβ Fourier image statistics, a signature which is mimicked by fractals an...
In this paper, rough surfaces are modeled based on the WM(Weierstrass-Mandelbrot) fractal function a...
We investigate the possibility of using fractal geometry to construct radiating elements for phased ...