Title :
Space-frequency coded OFDM for underwater acoustic communications
Author :
Zorita, E.V. ; Stojanovic, M.
Abstract :
This work proposes an adaptive receiver for the space-frequency block coding scheme, in which Alamouti coding is applied over the carriers of an OFDM system with the aim of obtaining transmit diversity in an underwater acoustic channel. The receiver relies on the assumption that the channel transfer function does not change much over two consecutive carriers, and that the channel is slowly time-varying. Building on these assumptions we propose an adaptive channel estimation method based on Doppler prediction and time-smoothing, which effectively reduces the pilot overhead. System performance is demonstrated using real data transmitted over a shallow water channel in the 10-15 kHz acoustic band from a vehicle moving at 0.5-2 m/s, using QPSK and a varying number of carriers ranging from 64 to 1024. Results demonstrate a uniform gain over the single-transmitter case.
Keywords :
OFDM modulation; acoustic receivers; adaptive codes; adaptive estimation; block codes; channel coding; channel estimation; quadrature phase shift keying; time-varying channels; transfer functions; underwater acoustic communication; Alamouti coding; Doppler prediction; OFDM system; QPSK; adaptive channel estimation method; adaptive receiver; channel transfer function; data transmission; diversity transmission; frequency 10 kHz to 15 kHz; pilot overhead reduction; shallow water channel; single-transmitter case; space-frequency block coding scheme; time-smoothing; time-varying channel; underwater acoustic communication channel; velocity 0.5 m/s to 2 m/s; Acoustics; Bit error rate; Channel estimation; Coherence; Matching pursuit algorithms; OFDM; Receivers;
Conference_Titel :
Oceans, 2012
Conference_Location :
Hampton Roads, VA
Print_ISBN :
978-1-4673-0829-8
DOI :
10.1109/OCEANS.2012.6404916
