DocumentCode
3195985
Title
Improving ISAR imaging quality based on minimum entropy method
Author
Sun, X. ; Bao, Z.
Author_Institution
Xidian Univ., Xi´´an, China
fYear
1997
fDate
14-16 Oct 1997
Firstpage
240
Lastpage
243
Abstract
Using the classical ISAR imaging method based on the Fourier transform it is difficult to form an image of good quality in the case of a large rotating angle or a nonuniformly rotating target. We first establish the signal models for the two cases above. Then an imaging method for compensating the linearly varying Doppler frequency of the scatterers is proposed. The frequency modulating rate of the Doppler frequency of the scatterers is estimated by means of the minimum Shannon entropy. It is demonstrated by experimental results that the proposed method can alleviate the cross-range cell migration of the scatterers and the imaging quality can be greatly improved
Keywords
synthetic aperture radar; Doppler frequency; ISAR imaging quality; cross-range cell migration; experimental results; frequency modulating rate; high resolution imaging method; image quality; inverse synthetic aperture radar; large rotating angle; linearly varying Doppler frequency compensation; minimum Shannon entropy; minimum entropy method; nonuniformly rotating targets; scatterers; signal models;
fLanguage
English
Publisher
iet
Conference_Titel
Radar 97 (Conf. Publ. No. 449)
Conference_Location
Edinburgh
ISSN
0537-9989
Print_ISBN
0-85296-698-9
Type
conf
DOI
10.1049/cp:19971670
Filename
629132
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