On the constructions of highly nonlinear zigzag functions and unbiased functions
Information Processing Letters
Finite-length scaling for iteratively decoded LDPC ensembles
IEEE Transactions on Information Theory
| Hi-index | 754.90 |
We define and estimate the threshold probability θ of a linear code, using a theorem of Margulis (1974) originally conceived for the study of the probability of disconnecting a graph. We then apply this concept to the study of the erasure and Z-channels, for which we propose linear coding schemes that admit simple decoding. We show that θ is particularly relevant to the erasure channel since linear codes achieve a vanishing error probability as long as p⩽θ, where p is the probability of erasure. In effect, θ can be thought of as a capacity notion designed for codes rather than for channels. Binomial codes haven the highest possible θ (and achieve capacity). As for the Z-channel, a subcapacity is derived with respect to the linear coding scheme. For a transition probability in the range ]log (3/2); 1[, we show how to achieve this subcapacity. As a by-product we obtain improved constructions and existential results for intersecting codes (linear Sperner families) which are used in our coding schemes