Title :
Improved estimation of machinery tonal intensity under severe underwater channel distortions
Author :
Das, Arnab ; Kumar, Arun ; Bahl, Rajendar
Author_Institution :
Underwater Ranges, Vasco da Gama, India
Abstract :
Acoustic signals undergo random fluctuations due to time and frequency dispersive nature of the underwater channel. The principal contribution of this paper is a cepstrum-based approach for channel equalization to derive machinery tonals under severe underwater channel distortions based on homomorphic transformation. This approach takes advantage of the fact that the underwater channel occupies higher cepstral indices, while the signal at source remains at lower cepstral indices corresponding to the fundamental period of the machinery tonal. Performance evaluation has been presented to support the improvement in estimation of tonals, based on the variance of the machinery tonals.
Keywords :
acoustic signal processing; cepstral analysis; channel estimation; fluctuations; geophysical signal processing; underwater sound; acoustic signals; cepstral indices; cepstrum-based approach; channel equalization; frequency dispersive nature; homomorphic transformation; machinery tonal intensity estimation; machinery tonals; underwater channel distortion; Cepstrum; Channel estimation; Estimation; Machinery; Maximum likelihood detection; Noise; Cepstral liftering; estimation of machinery tonal intensity; underwater channel inversion;
Conference_Titel :
Ocean Electronics (SYMPOL), 2009 International Symposium on
Conference_Location :
Cochin
Print_ISBN :
978-1-4244-9119-3
Electronic_ISBN :
978-1-4244-9118-6
DOI :
10.1109/SYMPOL.2009.5664130
