Radar imaging using linear prediction for data extrapolation

Author

Zhu, Zhaoda ; Ye, Zhenru ; Wu, Xiaoqing

Author_Institution

Dept. of Electron. Eng., Nanjing Aeronaut. Inst., China

fYear

1991

fDate

20-24 May 1991

Firstpage

149

Abstract

The authors describe an investigation wherein the resolution capability of range-Doppler imaging radars is extended well beyond the limitation imposed by the conventional FFT (fast Fourier transform) range-Doppler processing. The approach adopted uses linear prediction for data extrapolation before performing Fourier reconstruction. Preliminary results of rotating platform imaging based on experimental data acquired in a microwave anechoic chamber show that this technique shows promise for improving the resolution capability of range-Doppler imaging radars. With this approach, one can obtain either higher-resolution images for the same effective bandwidth of transmitted signals and total rotation angle in imaging, or equivalent-quality images from a smaller bandwidth and rotation angle

Keywords

Doppler effect; extrapolation; fast Fourier transforms; filtering and prediction theory; microwave imaging; radar theory; signal processing; 2D; FFT; Fourier reconstruction; cross range profile; data extrapolation; fast Fourier transform; linear prediction; microwave anechoic chamber; range-Doppler imaging radars; range-Doppler processing; resolution; rotating platform imaging; signal processing; total rotation angle; Anechoic chambers; Bandwidth; Extrapolation; Fast Fourier transforms; High-resolution imaging; Image reconstruction; Image resolution; Microwave imaging; Microwave theory and techniques; Radar imaging;

fLanguage

English

Publisher

ieee

Conference_Titel

Aerospace and Electronics Conference, 1991. NAECON 1991., Proceedings of the IEEE 1991 National

Conference_Location

Dayton, OH

Print_ISBN

0-7803-0085-8

Type

conf

DOI

10.1109/NAECON.1991.165737

Filename

165737