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Algorithmic Polarization for Hidden Markov Models. (arXiv:1810.01969v1 [cs.IT])
来源于:arXiv
Using a mild variant of polar codes we design linear compression schemes
compressing Hidden Markov sources (where the source is a Markov chain, but
whose state is not necessarily observable from its output), and to decode from
Hidden Markov channels (where the channel has a state and the error introduced
depends on the state). We give the first polynomial time algorithms that manage
to compress and decompress (or encode and decode) at input lengths that are
polynomial $\it{both}$ in the gap to capacity and the mixing time of the Markov
chain. Prior work achieved capacity only asymptotically in the limit of large
lengths, and polynomial bounds were not available with respect to either the
gap to capacity or mixing time. Our results operate in the setting where the
source (or the channel) is $\it{known}$. If the source is $\it{unknown}$ then
compression at such short lengths would lead to effective algorithms for
learning parity with noise -- thus our results are the first to suggest a
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