Title :
Classification of ships using underwater radiated noise
Author_Institution :
Dept. of Electr. & Electron. Eng., Stellenbosch Univ., South Africa
Abstract :
Concentrating mainly on the signal processing and physical models behind the algorithms used to classify ships by their underwater-radiated noise, the physical model for cavitation is expanded to include the losses by acoustical radiation and the heat transfer from the vapor to the fluid. The resulting equation allows one to find the characteristics of cavitation through simulation. Five algorithms for estimating the propeller speed have been found. The performance of the three most promising ones are judged with respect to the ratio of the expected value to the variance of the estimator. A complete Bayes hypothesis test on second-order autoregressive power density spectrum poles are then described for determining the kind of propulsion a vessel uses. The nature of gearbox noise is described, and the cepstrum is proposed as an algorithm to detect this kind of noise
Keywords :
acoustic noise; acoustic signal processing; ships; underwater sound; Bayes hypothesis test; acoustical radiation losses; cavitation; cepstrum; gearbox noise; heat transfer; physical models; second-order autoregressive power density spectrum poles; ships classification; signal processing; underwater radiated noise; Acoustic noise; Acoustical engineering; Differential equations; Heat transfer; Marine vehicles; Propellers; Propulsion; Signal processing algorithms; Temperature; Underwater acoustics;
Conference_Titel :
Communications and Signal Processing, 1988. Proceedings., COMSIG 88. Southern African Conference on
Conference_Location :
Pretoria
Print_ISBN :
0-87942-709-4
DOI :
10.1109/COMSIG.1988.49315
