Title :
A novel broadband COFDM modulation scheme for robust communication over the underwater acoustic channel
Author :
Lam, W.K. ; Ormondroyd, R.F.
Author_Institution :
Roke Manor Res. Ltd., Romsey, UK
Abstract :
An UWA communication system that uses coherent pseudo-random-phase carrier COFDM modulation is presented. The system shares the advantages of the correlating receiver of the direct sequence spread spectrum system and COFDM modulation. A feature of the new system is the use of a pseudo-random Gaussian noise signal as a channel sounding probe to measure the complex channel transfer function for frequency domain equalization. The equalizer uses the least squares autoregressive algorithm, which has been modified to accommodate the multi-carrier OFDM signal structure for frequency domain equalization. In this paper, an outline of the structure of the COFDM system and the method of frequency domain equalization are described. The bit-error-rate probabilities of three system configurations are then discussed under different multipath/Doppler channel conditions
Keywords :
Doppler effect; Gaussian noise; OFDM modulation; Viterbi decoding; acoustic receivers; autoregressive processes; convolutional codes; correlators; equalisers; error statistics; forward error correction; frequency-domain analysis; least squares approximations; maximum likelihood decoding; multipath channels; quadrature phase shift keying; spread spectrum communication; transfer functions; underwater acoustic communication; 8PSK-OFDM; QPSK-OFDM; UWA communication system; bit-error-rate probabilities; broadband COFDM modulation; channel sounding probe; coherent pseudo-random-phase carrier; complex channel transfer function measurement; convolutional FEC codes; correlating receiver; direct sequence spread spectrum system; frequency domain equalization; frequency selective multipath channel; least squares autoregressive algorithm; maximum likelihood Viterbi decoder; multi-carrier OFDM signal structure; multipath/Doppler channel conditions; pseudo-random Gaussian noise signal; robust communication; system configurations; underwater acoustic channel; Equalizers; Frequency domain analysis; Frequency measurement; Gaussian noise; Noise measurement; Noise robustness; OFDM modulation; Probes; Spread spectrum communication; Transfer functions;
Conference_Titel :
Military Communications Conference, 1998. MILCOM 98. Proceedings., IEEE
Conference_Location :
Boston, MA
Print_ISBN :
0-7803-4506-1
DOI :
10.1109/MILCOM.1998.722558
