Title :
Non-Rayleigh Scattering by a Randomly Oriented Elongated Scatterer Randomly Located in a Beam
Author :
Bhatia, Sumit ; Stanton, Tim K. ; Baik, Kyungmin
Author_Institution :
Appl. Ocean Phys. & Eng. Dept., Apple Inc., Woods Hole, MA, USA
Abstract :
The echo statistics of a randomly rough, randomly oriented prolate spheroid that is randomly located in the beampattern are investigated from physics-based principles both analytically and numerically. This is a direct-path geometry in which reflections from neighboring boundaries are not a factor. The statistics and, in particular, the tails of the probability density function (pdf) and probability of false alarm (PFA) are shown to be strongly non-Rayleigh and a strong function of shape of scatterer. The tails are shown to increase above that associated with a Rayleigh distribution with increasing degree of elongation (aspect ratio) of the scatterer and when roughness effects are introduced. And, as also shown in previous studies, the effects associated with the scatterer being randomly located in the beam contribute to the non-Rayleigh nature of the echo.
Keywords :
electromagnetic wave reflection; electromagnetic wave scattering; probability; statistical analysis; PFA tail; Rayleigh distribution; aspect ratio; beampattern; direct-path geometry; echo statistics; neighboring boundaries; nonRayleigh scattering; pdf tail; physics-based principles; probability density function tail; probability-of-false alarm tail; randomly-oriented elongated scatterer; randomly-rough randomly-oriented prolate spheroid; reflections; roughness effects; scatterer elongation; scatterer shape function; Apertures; Backscatter; Geometry; Probability density function; Random variables; Scattering; Beampattern; echo statistics; scattering;
Journal_Title :
Oceanic Engineering, IEEE Journal of
DOI :
10.1109/JOE.2013.2293959
