Title :
Long-range acoustic communication in deep water using a towed array: Beam diversity
Author_Institution :
Scripps Instn. of Oceanogr., Univ. of California, La Jolla, CA, USA
Abstract :
Underwater acoustic communication typically involves vertical arrays that provide spatial diversity to mitigate channel fading and intersymbol interference when the array elements are well-separated. For closely-spaced arrays (e.g., one-half wavelength), an array gain is achieved by a beamforming process provided that the noise is uncorrelated while the signal is coherent across the array. A recent experiment (LRAC10) showed that coherent long-range acoustic communication (200-300 Hz) is feasible in deep water over ~550-km range between a source and a horizontal towed array (~100 m aperture). This paper demonstrates that beam diversity with a larger horizontal array (~200 m aperture) can be exploited to further improve the communication performance, achieving an error-free data rate of 50 bits/s for BPSK modulation at ~550-km range.
Keywords :
array signal processing; interference suppression; intersymbol interference; phase shift keying; underwater acoustic communication; BPSK modulation; array gain; beam diversity; beamforming process; bit rate 50 bit/s; channel fading mitigation; closely-spaced arrays; deep water; frequency 200 Hz to 300 Hz; horizontal towed array; intersymbol interference mitigation; long-range acoustic communication; spatial diversity; underwater acoustic communication; vertical arrays; Acoustic beams; Arrays; Diversity reception; Marine vehicles; Signal to noise ratio; Underwater acoustics; acoustic communication; array gain; beam diversity; beamforming; equalization;
Conference_Titel :
OCEANS, 2012 - Yeosu
Conference_Location :
Yeosu
Print_ISBN :
978-1-4577-2089-5
DOI :
10.1109/OCEANS-Yeosu.2012.6263422
