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1 October 1982 Two-Dimensional Optical Processing Of One-Dimensional Acoustic Data
Harold H. Szu
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Optical Engineering, Vol. 21, Issue 5, 215804 (October 1982). https://doi.org/10.1117/12.7972986
Abstract
The concept of carrier-mean-frequency-selective convolution is introduced to solve the undersea problem of passive acoustic surveillance (PAS) and compared with the conventional notion of difference-frequency Doppler-corrected correlation. The former results in the cross-Wigner distribution function (WD), and the latter results in the cross-ambiguity function (AF). When the persistent time of a sound emitter is more important than the characteristic tone of the sound emitter, WD will be more useful than AF for PAS activity detection, and vice versa. Their mutual relationships with the instantaneous power spectrum (IPS) show the importance of the phase information that must be kept in any 2-D representation of a 1 -D signal. If a square-law detector is used, or an unsymmetric version of WD or AF is gener-ated, then one must produce the other 2-D representations directly, rather than transform one to the other.
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Harold H. Szu "Two-Dimensional Optical Processing Of One-Dimensional Acoustic Data," Optical Engineering 21(5), 215804 (1 October 1982). https://doi.org/10.1117/12.7972986
Published: 1 October 1982
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KEYWORDS
Acoustics
Optical signal processing
Convolution
Doppler effect
Sensors
Surveillance
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