Autofocus Correction of Phase Distortion Effects on SHARAD Echoes

Author

Campbell, Bruce A. ; Putzig, Nathaniel E. ; Carter, Lynn M. ; Phillips, Roger J.

Author_Institution

Center for Earth & Planetary Studies, Smithsonian Instn., Washington, DC, USA

Volume

8

Issue

5

fYear

2011

Firstpage

939

Lastpage

942

Abstract

SHARAD is a frequency-modulated (15-25 MHz) radar sounder that probes the upper few kilometers of the Martian crust and polar layered deposits. At solar zenith angles less than about 100°, the ionosphere of Mars can induce phase distortion in surface and subsurface radar echoes that substantially degrades the signal-to-noise ratio and vertical resolution of the range-compressed data. We present a range-compression autofocus approach that estimates the phase distortion of SHARAD data along ground-track segments of about 100 km, using a power-law image-sharpness metric and an empirically derived scaling between the phase correction and radar frequency. This method is rapid, yields a greatly improved subsurface image, and provides a means to track regional and temporal changes in the Martian ionosphere.

Keywords

Mars; planetary atmospheres; planetary remote sensing; planetary surfaces; spaceborne radar; Martian crust; Martian ionosphere; SHARAD echoes; autofocus correction; frequency 15 MHz to 25 MHz; frequency-modulated radar sounder; ground-track segment; phase distortion effect; polar layered deposits; power-law image-sharpness metric; radar frequency; signal-to-noise ratio; solar zenith angles; spaceborne radar; subsurface image; subsurface radar echoes; Chirp; Ionosphere; Mars; Measurement; Phase distortion; Radar tracking; Mars; radar signal processing; spaceborne radar;

fLanguage

English

Journal_Title

Geoscience and Remote Sensing Letters, IEEE

Publisher

ieee

ISSN

1545-598X

Type

jour

DOI

10.1109/LGRS.2011.2143692

Filename

5770180