论文信息 - Decision-directed passive phase conjugation for underwater acoustic communications with results from a shallow-water trial

Decision-directed passive phase conjugation for underwater acoustic communications with results from a shallow-water trial

We describe a novel decision-directed structure that extends the passive phase conjugation (PPC) array demodulation method of Rouseff et al.. The PPC transmission scheme is a single source and multiple receive sensors. Our algorithm uses an initial training period with known data, followed by block-update LS channel estimation via LSQR (Paige and Saunders1982) iterations, and subsequent memoryless decisions. Decisions are circulated back into the LS model for the next estimation block. Performance on a shallow-water acoustic channel is shown at ranges up to 4.6 km under windy surface conditions and shipping noise. The algorithm demonstrates good bit error rates, and robustly tracks time-varying channels. Its unquantized output can be further processed by conventional equalizers.

J.A. Ritcey | J.A. Flynn | D. Rouseff | W.L.J. Fox | D.R. Jackson

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