Title :
Efficient Multicarrier Communication for Highly Spread Underwater Acoustic Channels
Author :
Hwang, Sung-Jun ; Schniter, Philip
Author_Institution :
Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH
fDate :
12/1/2008 12:00:00 AM
Abstract :
In this paper we propose a novel method for communication over underwater acoustic channels that exhibit simultaneously large delay spread and Doppler spread, such as those found in the surf zone. In particular, we propose a coded pulse-shaped multicarrier scheme that converts the doubly dispersive channel into an inter-carrier interference (ICI) channel with small ICI spread. The resulting ICI is mitigated using a soft noncoherent equalizer that leverages sparsity in the delay-power profile to generate near-optimal bit estimates with low complexity. The noncoherent equalizer uses a delay-power-profile estimate (rather than a channel estimate) which is obtained from pilots. Numerical simulations with surf-zone-like channels demonstrate performance close to genie-aided bounds.
Keywords :
Doppler effect; channel estimation; equalisers; intercarrier interference; underwater acoustic communication; Doppler spread; channel estimate; coded pulse-shaped multicarrier scheme; delay spread; delay-power profile; delay-power-profile estimate; dispersive channel; highly spread underwater acoustic channels; intercarrier interference channel; multicarrier communication; near-optimal bit estimates; soft noncoherent equalizer; surf-zone-like channels; Acoustic signal detection; Bandwidth; Decision feedback equalizers; Delay estimation; Dispersion; Intersymbol interference; Proposals; Underwater acoustics; Underwater communication; Underwater tracking; Underwater acoustic modems, underwater acoustic channels, multicarrier modulation, noncoherent decoding, turbo equalization, joint estimation and detection, sparse channels;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
DOI :
10.1109/JSAC.2008.081207
