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Paper detail

Low Complexity Algorithms for Transmission of Short Blocks over the BSC with Full Feedback

Building on the work of Horstein, Shayevitz and Feder, and Naghshvar \emph{et al.}, this paper presents algorithms for low-complexity sequential transmission of a $k$-bit message over the binary symmetric channel (BSC) with full, noiseless feedback. To lower complexity, this paper shows that the initial $k$ binary transmissions can be sent before any feedback is required and groups messages with equal posteriors to reduce the number of posterior updates from exponential in $k$ to linear in $k$. Simulation results demonstrate that achievable rates for this full, noiseless feedback system approach capacity rapidly as a function of average blocklength, faster than known finite-blocklength lower bounds on achievable rate with noiseless active feedback and significantly faster than finite-blocklength lower bounds for a stop feedback system.

preprint2020arXivOpen access
Amaael AntoniniHengjie YangRichard D. Wesel
math.ITInformation Theory
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Amaael AntoniniHengjie YangRichard D. Wesel

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