Embedding information into radar emissions via waveform implementation

Author

Blunt, Shannon D. ; Cook, Matthew R. ; Stiles, James

Author_Institution

EECS Dept., Univ. of Kansas, Lawrence, KS, USA

fYear

2010

fDate

8-13 Aug. 2010

Abstract

In this paper an approach for the joint design of multiple receive filters is described that enables the use of different waveforms during a radar CPI while minimizing the attendant Doppler coherency degradation due to range sidelobe clutter modulation. This capability allows for a set of unique radar waveforms to serve the dual purpose of acting as communication symbols while acceptable radar performance is maintained. The receive filter design approach is based upon the well-known Least-Squares (LS) mismatch filter formulation. The novel modification is the iterative adaptation of the desired response such that all the waveform/filter pair responses are driven to be identical.

Keywords

Doppler radar; filtering theory; radar clutter; radar signal processing; attendant Doppler coherency degradation; iterative adaptation; least-squares mismatch filter formulation; radar coherent processing interval; radar emission; range sidelobe clutter modulation; receive filter design approach; waveform implementation; Clutter; Doppler effect; Doppler radar; Joints; Matched filters; Radar clutter;

fLanguage

English

Publisher

ieee

Conference_Titel

Waveform Diversity and Design Conference (WDD), 2010 International

Conference_Location

Niagara Falls, ON

ISSN

2150-4652

Print_ISBN

978-1-4244-8202-3

Type

conf

DOI

10.1109/WDD.2010.5592502

Filename

5592502