Title :
Dominant-plus-Rayleigh Models for RCS: Swerling III/IV versus Rician
Author :
Xiufeng Song ; Blair, W.D. ; Willett, P. ; Shengli Zhou
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Connecticut, Storrs, CT, USA
Abstract :
A Swerling III/IV target is generally thought of as the sum of a dominant nonfluctuating reflector plus many smaller scatterers, and the many smaller scatterers are often thought of as having a combined voltage amplitude that is Rayleigh distributed (i.e., Swerling I/II). On the other hand, a Rician target is the result of a complex sum at baseband of a nonfluctuating object and a Rayleigh object. The Rician model is not easily reconciled with the standard four degree of freedom χ2 distribution for the (power) amplitude of a Swerling III/IV target, and, indeed, we show here that no Swerling III/IV target is Rician. However, when the nonfluctuating or “dominant” part of the Rician target is approximately 75% of the total reflection, their dissimilarity is minimized (and is small). This phenomenon holds true when Gaussian receiver noise is involved.
Keywords :
Gaussian distribution; Gaussian noise; Rayleigh scattering; electromagnetic wave reflection; radar cross-sections; radar receivers; Gaussian receiver noise; RCS; Rayleigh distribution; Rayleigh model; Rayleigh object; Rician target; Swerling III/IV target; dominant nonfluctuating reflector; nonfluctuating object; reflection; scatterer; voltage amplitude; Fluctuations; Matched filters; Numerical models; Receivers; Rician channels; Signal to noise ratio;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2013.6558040
