Anytime Decoding by Monte-Carlo Tree Search
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An anytime decoding algorithm for tree codes using Monte-Carlo tree search is proposed. The meaning of anytime decoding here is twofold: 1) the decoding algorithm is an anytime algorithm, whose decoding performance improves as more computational resource, measured by decoding time, is allowed, and 2) the proposed decoding algorithm can approximate the maximum-likelihood sequence decoding of tree codes, which has the anytime reliability when the code is properly designed. The above anytime properties are demonstrated through experiments. The proposed method may be extended to the decoding of convolutional codes and block codes by Monte-Carlo trellis search, to enable smooth complexity-performance trade-offs in these decoding tasks. Some other extensions and possible improvements are also discussed.
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