Title :
Spectral Nulling on Transmit via Nonlinear FM Radar Waveforms
Author :
Gerlach, Karl ; Frey, Michael R. ; Steiner, Michael J. ; Shackelford, Aaron
Author_Institution :
ITT Corp., Alexandria, VA, USA
fDate :
4/1/2011 12:00:00 AM
Abstract :
Modern radars operate in electromagnetic environments crowded with other RF users. Adaptive spectral nulling on transmit can reduce interference from and to these other RF users. An analytical theory is developed for spectral nulling by a minimal adjustment, or offset, to the phase of the radar pulse that maintains constant pulse amplitude. Numerical examples show that a small time-varying phase offset designed by the proposed method can produce deep spectral nulls at one or more chosen frequencies in the radar´s spectral sidelobes with little other effect on the pulse spectrum or ambiguity function.
Keywords :
FM radar; interference suppression; radar signal processing; adaptive spectral nulling; ambiguity function; constant pulse amplitude; interference reduction; nonlinear FM radar waveforms; pulse spectrum; radar pulse; radar spectral sidelobes; time-varying phase offset; Chirp; Frequency modulation; Interference; Phase modulation; Radio frequency; Spaceborne radar;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2011.5751276
