Title :
On Clutter Rank Observed by Arbitrary Arrays
Author :
Goodman, Nathan A. ; Stiles, James M.
Author_Institution :
Dept. of Electr. & Comput. Eng., Arizona Univ., Tucson, AZ
Abstract :
This paper analyzes the rank and eigenspectrum of the clutter covariance matrix observed by space-time radar systems with arbitrarily configured arrays and varying look geometry. Motivated by recent applications that suggest use of nonuniform antenna arrays, a generalized theory of clutter rank is derived and demonstrated. First, a one-dimensional effective random process is defined by projecting the measurements obtained by an arbitrary space-time radar system into an equivalent one-dimensional sampling structure. Then, this projection and the Karhunen-Loeve representation of random processes are used to predict clutter rank based on effective aperture-bandwidth product. Simulated results are used to confirm the theory over a wide range of scenarios, and along the way, the well-known Brennan´s rule for clutter rank is shown to be a special case of the proposed aperture-bandwidth product
Keywords :
covariance matrices; radar clutter; radar signal processing; Karhunen-Loeve representation; aperture-bandwidth product; arbitrary arrays; clutter covariance matrix; clutter rank; eigenspectrum; nonuniform antenna arrays; one-dimensional effective random process; one-dimensional sampling structure; space-time radar systems; Antenna arrays; Antenna measurements; Antenna theory; Covariance matrix; Geometry; Radar antennas; Radar clutter; Radar measurements; Random processes; Spaceborne radar; Adaptive radar; radar clutter; radar signal processing;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2006.882071
