Title :
Characterization and Modeling of Underwater Acoustic Communications Channels for Frequency-Shift-Keying Signals
Author :
Yang, Wen-Bin ; Yang, T.C.
Author_Institution :
Naval Res. Lab., Washington, DC
Abstract :
In a fading channel, bit error rate for frequency-shift-keying signals is determined predominantly by the envelope amplitude fading statistics of the signal. The narrowband envelope amplitude distributions are measured from the TREX04 data (as a function of frequency) using M-sequence signals centered at 17 kHz with a 5 kHz bandwidth. The results do not fit the Rayleigh, Rician, Nakagami m-distributions. In contrast, we find that the data are fitted well by a K-distribution. We also analyze the data in terms of long-term and short-term statistics. The long-term and short-term fading statistics are well fitted by the lognormal distribution and Rayleigh distribution respectively, choosing the average time scale to be ~0.2 sec. The joint probability distribution function of a lognormal and the Rayleigh distribution is approximately the K-distribution
Keywords :
Nakagami channels; Rician channels; frequency shift keying; log normal distribution; underwater acoustic communication; 17 kHz; 5 kHz; K-distribution; M-sequence signals; Nakagami m-distribution; Rayleigh distribution; Rayleigh m-distribution; Rician m-distribution; TREX04 data; amplitude distributions; average time scale; bit error rate; envelope amplitude signal fading statistics; fading channel; frequency function; frequency-shift-keying signals; joint probability distribution function; lognormal distribution; long-term statistics; narrowband envelope; short-term statistics; underwater acoustic communications channels; Acoustic measurements; Bit error rate; Communication channels; Error analysis; Fading; Frequency; Narrowband; Rayleigh channels; Statistical distributions; Underwater acoustics;
Conference_Titel :
OCEANS 2006
Conference_Location :
Boston, MA
Print_ISBN :
1-4244-0114-3
Electronic_ISBN :
1-4244-0115-1
DOI :
10.1109/OCEANS.2006.306981
