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Ido Tal and Alexander Vardy awarded the Â鶹´«Ã½Ó³»­ Communications Society and Information Theory Society Joint Paper Award for 2017
The paper "List Decoding of Polar Codes" Â鶹´«Ã½Ó³»­ Transactions on Information Theory, Vol. 61, No. 5, pp 2213 – 2226, May 2015 by Ido Tal and Alexander Vardy has been awarded the 2017 Â鶹´«Ã½Ó³»­ Communications Society and Information Theory Society Joint Paper Award for 2017.
Apr 25, 2017

Ido Tal is an Assistant Professor at the Technion-Israel Institute of Technology and Alexander Vardy is a Professor at the University of California, San Diego.

The abstract of the paper is given below.

We describe a successive-cancellation list decoder for polar codes, which is a generalization of the classic successive-cancellation decoder of Arıkan. In the proposed list decoder, L decoding paths are considered concurrently at each decoding stage, where L is an integer parameter. At the end of the decoding process, the most likely among the L paths is selected as the single codeword at the decoder output. Simulations show that the resulting performance is very close to that of maximum-likelihood decoding, even for moderate values of L. Alternatively, if a genie is allowed to pick the transmitted codeword from the list, the results are comparable with the performance of current state-of-the-art LDPC codes. We show that such a genie can be easily implemented using simple CRC precoding. The specific list-decoding algorithm that achieves this performance doubles the number of decoding paths for each information bit, and then uses a pruning procedure to discard all but the L most likely paths. However, straightforward implementation of this algorithm requires Ω(Ln2) time, which is in stark contrast with the O(n log n) complexity of the original successive-cancellation decoder. In this paper, we utilize the structure of polar codes along with certain algorithmic transformations in order to overcome this problem: we devise an efficient, numerically stable, implementation of the proposed list decoder that takes only O(Ln logn) time and O(Ln) space.