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arxiv: 1206.2568 · v1 · pith:AP3WHKEMnew · submitted 2012-06-12 · 💻 cs.IT · math.IT

LP decoding of expander codes: a simpler proof

classification 💻 cs.IT math.IT
keywords epsilondeltacodeeveryexpanderdecodingfracproof
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A code $C \subseteq \F_2^n$ is a $(c,\epsilon,\delta)$-expander code if it has a Tanner graph, where every variable node has degree $c$, and every subset of variable nodes $L_0$ such that $|L_0|\leq \delta n$ has at least $\epsilon c |L_0|$ neighbors. Feldman et al. (IEEE IT, 2007) proved that LP decoding corrects $\frac{3\epsilon-2}{2\epsilon-1} \cdot (\delta n-1)$ errors of $(c,\epsilon,\delta)$-expander code, where $\epsilon > 2/3+\frac{1}{3c}$. In this paper, we provide a simpler proof of their result and show that this result holds for every expansion parameter $\epsilon > 2/3$.

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