Doppler-based detection in reverberation-limited channels: effects of surface motion and signal spectrum

Doppler-based detection in reverberation-limited channels: effects of surface motion and signal spectrum

This paper describes an algorithm to predict for a monostatic sonar system, the detection advantage (against reverberation) obtained by tuning a replica correlator to the Doppler-frequency offset predicted for a moving target. The effects of the signal spectrum on the replica-correlator output are m...

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Bibliographische Detailangaben
Hauptverfasser: Brill, M.H., Zabal, X., Harman, M.E., Eller, A.I.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Acoustic scattering
Correlators
Doppler shift
Frequency
Motion detection
Oceans
Reverberation
Sea surface
Sonar detection
Surface acoustic waves
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Zusammenfassung:This paper describes an algorithm to predict for a monostatic sonar system, the detection advantage (against reverberation) obtained by tuning a replica correlator to the Doppler-frequency offset predicted for a moving target. The effects of the signal spectrum on the replica-correlator output are modeled by the Q-function, which is the lag-time-integrated square envelope of the ambiguity surface. Random motion in the reflecting surface is included by convolving the Q-function with the monostatic frequency-spread function derived from stationary-phase scattering theory. Results are discussed based on gated-CW and Newhall pulsed-HFM waveforms, to illustrate situations in which waveform design can help Doppler detection and those in which it cannot.< >
DOI:10.1109/OCEANS.1993.326048