Synthetic aperture radar with a non-uniform pulse repetition interval

Author

Mobley, Stacie G. ; Maier, Mark W.

Author_Institution

US Army Missile Command, Redstone Arsenal, AL, USA

fYear

1995

fDate

12-14 Mar 1995

Firstpage

498

Lastpage

502

Abstract

Based on recent developments it has become feasible to combine the multiple pulse integration of synthetic aperture radar (SAR) with the temporal agility of nonuniform pulse repetition intervals (PRI). This combination can bring to the traditional SAR system both strong resistance to countermeasures and interception, and high sensitivity. A significant problem which must be addressed in SAR systems is the possible smearing of the azimuth dimension of the image due to Doppler sidelobes which are too high. This issue is even more serious with a non-uniform PRI waveform. Traditionally sidelobes are controlled with techniques such as amplitude weighting. However, these simpler techniques are not adequate for non-uniform PRI waveforms. One method for increasing the sidelobe rejection capability of these waveforms is through the use of interpolation based techniques

Keywords

Doppler radar; interpolation; radar signal processing; radar theory; synthetic aperture radar; waveform analysis; Doppler sidelobes; SAR; amplitude weighting; azimuth image dimension smearing; countermeasure resistance; high sensitivity; interception resistance; interpolation based techniques; multiple pulse integration; nonuniform pulse repetition interval; sidelobe rejection capability; synthetic aperture radar; waveforms; Azimuth; Discrete Fourier transforms; Doppler radar; Frequency; Interpolation; Missiles; Process control; Pulse modulation; Radar countermeasures; Synthetic aperture radar;

fLanguage

English

Publisher

ieee

Conference_Titel

System Theory, 1995., Proceedings of the Twenty-Seventh Southeastern Symposium on

Conference_Location

Starkville, MS

ISSN

0094-2898

Print_ISBN

0-8186-6985-3

Type

conf

DOI

10.1109/SSST.1995.390531

Filename

390531