AIP/123-QED Parameterizing both path amplitude and delay variations of underwater acoustic channels for block decoding of orthogonal frequency division multiplexing
نویسندگان
چکیده
There are no commonly-agreed mathematical models for the inputoutput relationship of underwater acoustic channels. For each path in a time-varying multipath channel within a short period of time (e.g., one short data block), this paper proposes to use one polynomial to approximate the amplitude variation and another polynomial up to the first order to approximate the delay variation within a block duration. Under such a channel parameterization, the discrete-time channel input-output relationship tailored to zero-padded orthogonalfrequency-division-multiplexing (OFDM) transmissions is then derived, based on which an OFDM receiver is validated using experimental data collected during the SPACE08 experiment. For channels with a short coherence time, the numerical results show that incorporating both the amplitude and delay variations improves the system performance. PACS numbers: 43.60.Dh, 43.60.Uv, 43.60.Ek
منابع مشابه
Parameterizing both path amplitude and delay variations of underwater acoustic channels for block decoding of orthogonal frequency division multiplexing.
There are no commonly-agreed mathematical models for the input-output relationship of underwater acoustic channels. For each path in a time-varying multipath channel within a short period of time (e.g., one short data block), this paper proposes to use one polynomial to approximate the amplitude variation and another polynomial up to the first order to approximate the delay variation within a b...
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