论文信息 - Efficient channel coding for analog sources using chaotic systems

Efficient channel coding for analog sources using chaotic systems

We explore the application of chaotic sequences for encoding and transmission of analog sources over channels with unknown or multiple signal-to-noise ratios, as occur in broadcast and fading scenarios. Lower bounds on the mean-square distortion are derived for codes based on so-called tent-map dynamics, and are compared with those of other codes. For additive white Gaussian noise channels, we show there always exists a power-bandwidth regime in which this code yields lower distortion than any digital (i.e., finite-alphabet) code. We also develop and evaluate three practical decoding algorithms for efficiently exploiting these new codes on intersymbol interference channels.

Gregory W. Wornell | B. Chen

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