Analysis of terrain scattered interference-mitigation

Author

Nelander, Anders

Author_Institution

Swedish Defence Res. Agency, Linkoping, Sweden

fYear

2004

fDate

26-29 April 2004

Firstpage

414

Lastpage

419

Abstract

Terrain scattered interference mitigation methods for airborne radar have been studied and deconvolution methods for interference suppression have been proposed. This paper describes an analysis of the terrain scattered interference mitigation performance for different conditions and limitations. The direct path signal must be accurately estimated without strong multipath errors. A time-limited impulse response is required to avoid too much suppression of target signals. Small relative Doppler shift errors are required between the direct path and the terrain scattered paths. Several strong jamming signal sources cannot be resolved and suppressed. Receiver blocking gives errors in the impulse response estimate. Clutter signals must be suppressed for accurate impulse responses. Numerical stability must be ensured in the inverse filtering and deconvolution operations.

Keywords

Doppler radar; Doppler shift; airborne radar; deconvolution; interference suppression; jamming; numerical stability; parameter estimation; radar clutter; radar theory; transient response; airborne radar; clutter signal suppression; deconvolution; direct path signal estimation; impulse responses; interference suppression; numerical stability; receiver blocking; relative Doppler shift errors; strong jamming signal sources; terrain scattered interference mitigation; time-limited impulse response; Airborne radar; Clutter; Deconvolution; Doppler shift; Interference suppression; Jamming; Numerical stability; Performance analysis; Radar scattering; Signal resolution;

fLanguage

English

Publisher

ieee

Conference_Titel

Radar Conference, 2004. Proceedings of the IEEE

Print_ISBN

0-7803-8234-X

Type

conf

DOI

10.1109/NRC.2004.1316460

Filename

1316460