Distributed coding using punctured quasi-arithmetic codes for memory and memoryless sources

This paper considers the use of punctured quasi-arithmetic (QA) codes for the Slepian-Wolf problem. These entropy codes are defined by finite state machines for memoryless and first-order memory sources. Puncturing an entropy coded bit-stream leads to an ambiguity at the decoder side. The decoder makes use of a correlated version of the original in order to remove this ambiguity. A complete DSC scheme based on QA encoding with side information at the decoder is presented. The proposed scheme is adapted to memoryless and first-order memory sources. Simulation results reveal that the proposed scheme is efficient in terms of decoding performance for short sequences compared to well-known DSC using channel codes.