Algorithms for Noisy Broadcast under Erasures
Abstract
The noisy broadcast model was first studied in [Gallager, TranInf'88] where an -character input is distributed among processors, so that each processor receives one input bit. Computation proceeds in rounds, where in each round each processor broadcasts a single character, and each reception is corrupted independently at random with some probability . [Gallager, TranInf'88] gave an algorithm for all processors to learn the input in rounds with high probability. Later, a matching lower bound of was given in [Goyal, Kindler, Saks; SICOMP'08]. We study a relaxed version of this model where each reception is erased and replaced with a `?' independently with probability . In this relaxed model, we break past the lower bound of [Goyal, Kindler, Saks; SICOMP'08] and obtain an -round algorithm for all processors to learn the input with high probability. We also show an -round algorithm for the same problem when the alphabet size is .
Keywords
Cite
@article{arxiv.1808.00838,
title = {Algorithms for Noisy Broadcast under Erasures},
author = {Ofer Grossman and Bernhard Haeupler and Sidhanth Mohanty},
journal= {arXiv preprint arXiv:1808.00838},
year = {2018}
}
Comments
Appeared in ICALP 2018