On Binary Probing Signals and Instrumental Variables Receivers for Radar

Author

Stoica, Petre ; Li, Jian ; Xue, Ming

Author_Institution

Dept. of Inf. Technol., Uppsala Univ., Uppsala

Volume

54

Issue

8

fYear

2008

Firstpage

3820

Lastpage

3825

Abstract

The so-called merit factor approach (MFA) to radar binary sequence design has led to several theoretical contributions in fairly diverse research areas including information theory, computer science, combinatorial optimization, and analytical number theory. However, the MFA-which basically aims at minimizing the clutter effect on radar performance-implicitly assumes the use of a least squares (LS) receiver that is optimal only when there is no clutter. This problem can be eliminated by using a more general optimal instrumental-variables (IV) receiver in lieu of the LS receiver. The IV receiver can reject clutter more efficiently than the LS receiver. Additionally, the binary sequence design problem associated with the IV approach has an interesting form.

Keywords

binary sequences; radar signal processing; binary probing signal; instrumental variables receiver; least squares receiver; merit factor approach; radar binary sequence design; radar performance; Autocorrelation; Binary sequences; Instruments; Least squares methods; Pulse modulation; Radar clutter; Radar cross section; Radar theory; Signal design; Signal resolution; Binary signal design; instrumental-variables (IV) mismatched-filtering (MMF) receiver; integrated sidelobe metric; least squares (LS) matched-filtering (MF) receiver; merit factor approach (MFA); peak sidelobe metric; radar;

fLanguage

English

Journal_Title

Information Theory, IEEE Transactions on

Publisher

ieee

ISSN

0018-9448

Type

jour

DOI

10.1109/TIT.2008.926436

Filename

4567600