On fractional dynamic faults with threshold

Abstract

Abstract. Unlike localized communication failures that occur on a fixed (although a priori unknown) set of links, dynamic faults can occur on any link. Known also as mobile or ubiquitous faults, their presence makes many tasks difficult if not impossible to solve even in synchronous sys-tems. Their analysis and the development of fault-tolerant protocols have been carried out under two main models. In this paper, we introduce a new model for dynamic faults in synchronous distributed systems. This model includes as special cases the existing settings studied in the lit-erature. We focus on the hardest setting of this model, called simple threshold, where to be guaranteed that at least one message is delivered in a time step, the total number of transmitted messages in that time step must reach a threshold T ≤ c(G), where c(G) is the edge connectiv-ity of the network. We investigate the problem of broadcasting under this model for the worst threshold T = c(G) in several classes of graphs as well as in arbitrary networks. We design solution protocols, proving tha