Author_Institution :
Naval Res. Lab., Washington, DC, USA
Abstract :
Temporal coherence is closely related to single path phase rate. The single path phase rates in a shallow water environment were obtained by applying two different multipath models [Dyson, Munk, and Zetler, J. Acoust. Soc. Am., vol. 59, pp. 1121-1133, 1976 and Mikhalevsky, J. Acoust. Soc. Am., vol. 66, pp. 751-762, 1979] on simulated data with internal waves. The estimated phase rates were consistent between the two models. In contrast, previous application of the same models on deep water data showed a factor of 8 difference in their phase rates. The phase rates derived from the models become independent of range after a uniform phase distribution is reached in the (-π,π) region. The shallow water coherence time varies considerably with depth at a given range. The depth dependence is explained with a correlation function constructed with mode depth functions.
Keywords :
coherence; error statistics; ocean waves; underwater acoustic communication; broadband acoustic signals; depth dependence; internal waves; multipath models; shallow water temporal coherence; uniform phase distribution; Acoustic waves; Bit error rate; Bit rate; Coherence; Error analysis; Frequency; Helium; Phase estimation; Signal processing; Signal processing algorithms; Internal waves; shallow water; simulation; temporal coherence;
