Paper Info
Title
Circulate shifted OFDM chirp waveform diversity design with digital beamforming for MIMO SAR.
Abstract
Waveform diversity design has always been the key to multiple-input multiple-output (MIMO) synthetic aperture radar (SAR) systems, and it is known that synthetic integral side lobe ratio (SISLR) is a more optimal indicator than the integral side lobe ratio (ISLR) to evaluate the orthogonality between different MIMO SAR waveforms. This paper presents proof that it is difficult to obtain the SISLR of an existing waveform such that it is sufficiently low to achieve high SNR for SAR imaging. Thus, it is necessary to find a way to separate these MIMO SAR waveforms in other domains, for example, a spatial domain by digital beamforming (DBF). Learning from Krieger’s idea of short-term shift-orthogonal waveforms and using joint time-frequency transforms (Gabor transform) to prove that for most existing SAR waveforms cyclic shift is a good operation with which to generate short-term shift-orthogonal waveforms. This paper presents the designs of four circulate shifted OFDM chirp waveforms, which have a much lower SISLR and retain all the advantages of the classical chirp waveform such as a large time-bandwidth product, constant amplitude, implementation simplicity, and good Doppler tolerance.
Year
DOI
Venue
2017
10.1007/s11432-016-9003-9
SCIENCE CHINA Information Sciences
Keywords
Field
DocType
MIMO SAR, Gabor transform, cyclic shift, OFDM chirp waveform, synthetic integral side lobe ratio (SISLR)
Beamforming,Synthetic aperture radar,Control theory,Waveform,MIMO,Chirp,Side lobe,Gabor transform,Mathematics,Orthogonal frequency-division multiplexing
Journal
Volume
Issue
ISSN
60
10
1674-733X
Citations 
PageRank 
References 
0
0.34
12
Authors
3
Name
Order
Citations
PageRank
Shangwen Liu111.03
Zenghui Zhang25010.29
Wenxian Yu34413.56