Title :
Range-Doppler Resolution of the Linear-FM Noise Radar Waveform
Author :
Govoni, Mark A. ; Hongbin Li ; Kosinski, J.A.
Author_Institution :
RDECOM, CERDEC, 12WD, Radar Applic. Branch, U.S. Army, Aberdeen Proving Ground, MD, USA
Abstract :
This research considers the linear-FM (LFM) of a noise radar waveform for resolving targets when channel noise and four popular radar sidelobe weighting functions are considered. By using large time-bandwidth products and systematically varying the phase scaling factor κ, results from the digital matched filter output provide evidence that the LFM noise waveform 1) has range-Doppler resolution similar to conventional chirp waveforms and 2) has a low probability of intercept (LPI) similar to random noise waveforms. We acquire the results using a computer-based simulation and verify the location of target peaks using the chirp waveform output for both stationary and moving target cases.
Keywords :
Doppler shift; FM radar; probability; random noise; LPI; channel noise; chirp waveform; chirp waveforms; computer-based simulation; digital matched filter; large time-bandwidth products; linear-FM noise radar waveform; low probability of intercept; phase scaling factor; radar sidelobe weighting functions; random noise waveforms; range-Doppler resolution; Chirp; Delay; Doppler effect; Matched filters; Noise; Radar imaging;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2013.6404130
