Imaging of objects embedded in a lossy half-space with a stepped frequency synthetic aperture radar

Author

Morrow, Ivor L. ; Van Genderen, Piet

Author_Institution

Int. Res. Centre for Telecommun.-Transmission & Radar, Delft Univ. of Technol., Netherlands

Volume

1

fYear

2000

fDate

2000

Firstpage

227

Abstract

A stepped frequency continuous wave radar is used in a ground penetrating radar application for the high resolution imaging of surface laid or shallow buried objects. Effective sensing of low dielectric contrast objects (with respect to their host environment) is accomplished via integration methods to enhance the image processing gain. Specifically, a two-medium synthetic aperture treatment is applied and a frequency domain window implemented. These techniques taken in combination provide a significant improvement in radar detection performance and image contrast. To demonstrate the usefulness of these techniques, two field experiments using different antenna types were conducted and their results are reported

Keywords

CW radar; buried object detection; frequency-domain analysis; radar detection; radar imaging; remote sensing by radar; synthetic aperture radar; embedded objects imaging; frequency domain window; ground penetrating radar application; high resolution imaging; image contrast; image processing gain enhancement; integration methods; lossy half-space; low dielectric contrast object sensing; radar detection performance; shallow buried objects; stepped frequency CW radar; stepped frequency SAR; stepped frequency continuous wave radar; stepped frequency synthetic aperture radar; surface laid objects; two-medium synthetic aperture treatment; Buried object detection; Dielectrics; Frequency; Ground penetrating radar; High-resolution imaging; Image processing; Radar applications; Radar imaging; Surface treatment; Surface waves;

fLanguage

English

Publisher

ieee

Conference_Titel

Microwaves, Radar and Wireless Communications. 2000. MIKON-2000. 13th International Conference on

Conference_Location

Wroclaw

Print_ISBN

83-906662-3-5

Type

conf

DOI

10.1109/MIKON.2000.913913

Filename

913913