Computer Science – Discrete Mathematics
Scientific paper
1999-07-02
IEEE Trans. Information Theory 47(6):2549-2553, 2001
Computer Science
Discrete Mathematics
23 pages, 11 figures
Scientific paper
10.1109/18.945266
This paper analyzes the distribution of cycle lengths in turbo decoding and low-density parity check (LDPC) graphs. The properties of such cycles are of significant interest in the context of iterative decoding algorithms which are based on belief propagation or message passing. We estimate the probability that there exist no simple cycles of length less than or equal to k at a randomly chosen node in a turbo decoding graph using a combination of counting arguments and independence assumptions. For large block lengths n, this probability is approximately e^{-{2^{k-1}-4}/n}, k>=4. Simulation results validate the accuracy of the various approximations. For example, for turbo codes with a block length of 64000, a randomly chosen node has a less than 1% chance of being on a cycle of length less than or equal to 10, but has a greater than 99.9% chance of being on a cycle of length less than or equal to 20. The effect of the "S-random" permutation is also analyzed and it is shown that while it eliminates short cycles of length k<8, it does not significantly affect the overall distribution of cycle lengths. Similar analyses and simulations are also presented for graphs for LDPC codes. The paper concludes by commenting briefly on how these results may provide insight into the practical success of iterative decoding methods.
Eppstein David
Ge Xian-ping
Smyth Padhraic
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