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Abstrakty
In the paper it is assumed that the underwater acoustic noise, of a noisy vessel, is a sum of a zero mean Gaussian stochastic process with a finite variance due to propeller(s) cavitation and of a finite number of sine waves with extremely small amplitudes. These two processes are mutually statistically independent. The deep-sea underwater ambient acoustic noise is supposed to be a zero mean Gaussian stochastic process with a finite variance as well. In the paper are considered the probability density function of the instantaneous values of the underwater acoustic noise of the noisy vessel and of the deep-sea underwater ambient acoustic noise. The likelihood ratio and the detection algorithm of the optimal statistical detection are given. The statistical indirect evaluation of the noisy vessel passive detection is considered. The indirect evaluation measure of the detection algorithm is so-called deflection coefficient, which is the function of the difference between statistical expectations of the two possible probability density functions of the received acoustic signals.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
245--248
Opis fizyczny
Bibliogr.3 poz.
Twórcy
autor
- Faculty of Natural Sciences, Mathematics and Education, Teslina 12/III, HR-21000 Split, Croatia
Bibliografia
- 1. Uric, R. J., Principles ofUnderwater Sound, McGraw-Hill, 188-189, New York 1975.
- 2. Whalen, A. D., Detection of Signals in Noise, Academic Press, 132-135, New York 1971.
- 3. Ugrinovic, K., Optimum Passive Sonar Structures, Doctoral Thesis in Croatian, UniversityofZagreb, 23-29, Zagreb 1990.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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