Abstract
We study broadcasting time in radio networks, modeled as unit disk graphs (UDG). Emek et al. showed that broadcasting time depends on two parameters of the UDG network, namely, its diameter D (in hops) and its granularity g. The latter is the inverse of the density d of the network which is the minimum Euclidean distance between any two stations. They proved that the minimum broadcasting time is \( \Theta \left( \min\left\{ D + g^2, D \log{g} \right\} \right) \), assuming that each node knows the density of the network and knows exactly its own position in the plane.
In many situations these assumptions are unrealistic. Does removing them influence broadcasting time? The aim of this paper is to answer this question, hence we assume that density is unknown and nodes perceive their position with some unknown error margin ε. It turns out that this combination of missing and inaccurate information substantially changes the problem: the main new challenge becomes fast broadcasting in sparse networks (with constant density), when optimal time is O(D). Nevertheless, under our very weak scenario, we construct a broadcasting algorithm that maintains optimal time \( O \left( \min\left\{ D + g^2, D \log{g} \right\}\right)\) for all networks with at least 2 nodes, of diameter D and granularity g, if each node perceives its position with error margin ε = αd, for any (unknown) constant α< 1/2. Rather surprisingly, the minimum time of an algorithm stopping if the source is alone, turns out to be Θ(D + g 2). Thus, the mere stopping requirement for the special case of the lonely source causes an exponential increase in broadcasting time, for networks of any density and any small diameter. Finally, broadcasting is impossible if ε ≥ d/2.
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Fusco, E.G., Pelc, A. (2008). Broadcasting in UDG Radio Networks with Missing and Inaccurate Information. In: Taubenfeld, G. (eds) Distributed Computing. DISC 2008. Lecture Notes in Computer Science, vol 5218. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-87779-0_18
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DOI: https://doi.org/10.1007/978-3-540-87779-0_18
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