Near Optimal Code Construction for the Adversarial Torn Paper Channel With Edit Errors

Abstract

Motivated by DNA storage systems and 3D fingerprinting, this work studies the adversarial torn paper channel with edit errors. This channel first applies at most te edit errors (i.e., insertions, deletions, and substitutions) to the transmitted word and then breaks it into t+1 fragments at arbitrary positions. In this paper, we construct a near optimal error correcting code for this channel, which will be referred to as a t-breaks te-edit-errors resilient code. This code enables reconstructing the transmitted codeword from the t+1 noisy fragments. Moreover, we study list decoding of the torn paper channel by deriving bounds on the size of the list (of codewords) obtained from cutting a codeword of a t-breaks resilient code t' times, where t' > t.