An Explicit Rate-Optimal Streaming Code for Channels with Burst and Arbitrary Erasures
Abstract
This paper considers the transmission of an infinite sequence of messages (a streaming source) over a packet erasure channel, where every source message must be recovered perfectly at the destination subject to a fixed decoding delay. While the capacity of a channel that introduces only bursts of erasures is well known, only recently, the capacity of a channel with either one burst of erasures or multiple arbitrary erasures in any fixed-sized sliding window has been established. However, the codes shown to achieve this capacity are either non-explicit constructions (proven to exist) or explicit constructions that require large field size that scales exponentially with the delay. This work describes an explicit rate-optimal construction for admissible channel and delay parameters over a field size that scales only quadratically with the delay.
Cite
@article{arxiv.1904.06212,
title = {An Explicit Rate-Optimal Streaming Code for Channels with Burst and Arbitrary Erasures},
author = {Elad Domanovitz and Silas L. Fong and Ashish Khisti},
journal= {arXiv preprint arXiv:1904.06212},
year = {2020}
}
Comments
arXiv admin note: text overlap with arXiv:1903.07434