Clutter Rank of Multi-dimensional Sparse Array Radar

Author

Yong Wu

Author_Institution

Tsinghua Univ., Beijing

fYear

2007

fDate

17-20 April 2007

Firstpage

463

Lastpage

468

Abstract

The framework of estimating the clutter rank of multi-dimensional sparse array radar is presented in this paper. The whole array is first divided into several sub-arrays according to the Nyquist interval, and then the number of degree of freedom (NDOF) estimate theory is employed to estimate the clutter rank in each sub-array. Finally, the clutter rank of the overall system is obtained by adding them together. In 2D/3D arrays, the clutter correlation becomes 2D/3D band-limited process. The NDOF theory is thus extended to 2D/3D cases. The Nyquist interval in 2D/3D arrays with or without range ambiguity is also discussed. When no range ambiguity exists, the actual Nyquist interval is larger than the nominal one. And under some circumstances, the clutter ranks of the 2D and 3D array are approximately identical.

Keywords

Nyquist criterion; array signal processing; covariance matrices; estimation theory; radar clutter; radar signal processing; 2D/3D band-limited signals; Nyquist interval; clutter covariance matrices; estimate theory; multidimensional sparse array radar; number of degree of freedom; radar clutter rank; Covariance matrix; Estimation theory; Frequency; Geometry; Radar clutter; Radar theory; Sampling methods; Sensor systems; Signal sampling; Spaceborne radar;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar Conference, 2007 IEEE

Conference_Location

Boston, MA

ISSN

1097-5659

Print_ISBN

1-4244-0284-0

Electronic_ISBN

1097-5659

Type

conf

DOI

10.1109/RADAR.2007.374261

Filename

4250355