Title :
On the power spectral density of FSK/PSK radar signals corrupted by oscillator phase noise
Author :
Skinner, B. Jeffrey ; Donohoe, J. Patrick ; Ingels, F.M.
Author_Institution :
Mississippi State Univ., MS, USA
Abstract :
FSK/PSK radar signals are pulse compression signals that combine direct sequence spread spectrum with frequency-hopping. It has been shown that if the FSK signal is properly combined with the direct sequence (PSK) signal, then the near ideal ambiguity properties of a Welch encoded FSK signal can be preserved while simultaneously increasing the LPI characteristics of the signal. One concern with FSK/PSK signaling radars is the effect of phase noise on the ability of these radars to detect moving targets in high ground clutter environments. A rigorous analysis of radar systems having multiple phase noise sources could not be found that addressed this problem in the open literature. The authors address this problem in such a manner as to provide a comparison between the predicted performance of FSK/PSK signaling radars and other more conventional radar systems
Keywords :
frequency shift keying; noise; oscillators; phase shift keying; radar clutter; radar systems; radar theory; spectral analysis; FSK signal; FSK/PSK radar signals; FSK/PSK signaling radars; LPI; PSK signal; Welch encoded FSK signal; ambiguity properties; direct sequence spread spectrum; frequency-hopping; ground clutter; oscillator phase noise; performance; power spectral density; pulse compression signals; radar systems;
Conference_Titel :
Radar 92. International Conference
Conference_Location :
Brighton
Print_ISBN :
0-85296-553-2
