COOPER, Colin; ILCINKAS, David; KLASING, Ralf; KOSOWSKI, Adrian

doi:10.1007/s00446-011-0138-4

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COOPER, Colin
Department of Computer Science [DCS]

ILCINKAS, David
Algorithmics for computationally intensive applications over wide scale distributed platforms [CEPAGE]
Combinatoire et Algorithmique

KLASING, Ralf
Algorithmics for computationally intensive applications over wide scale distributed platforms [CEPAGE]
Combinatoire et Algorithmique

Language

Article de revue

This item was published in

Distributed Computing. 2011, vol. 24, n° 2, p. 91-99

Springer Verlag

English Abstract

We consider the problem of exploring an anonymous undirected graph using an oblivious robot. The studied exploration strategies are designed so that the next edge in the robot's walk is chosen using only local information, and so that some local equity (fairness) criterion is satisfied for the adjacent undirected edges. Such strategies can be seen as an attempt to derandomize random walks, and are natural counterparts for undirected graphs of the rotor-router model for symmetric directed graphs. The first of the studied strategies, known as Oldest-First (OF), always chooses the neighboring edge for which the most time has elapsed since its last traversal. Unlike in the case of symmetric directed graphs, we show that such a strategy in some cases leads to exponential cover time. We then consider another strategy called Least-Used-First (LUF) which always uses adjacent edges which have been traversed the smallest number of times. We show that any Least-Used-First exploration covers a graph G=(V,E) of diameter diam within time O(diam|E|), and in the long run traverses all edges of G with the same frequency.Read less <

English Keywords

Random walk

Graph exploration

URI

https://oskar-bordeaux.fr/handle/20.500.12278/198035

DOI

http://dx.doi.org/10.1007/s00446-011-0138-4

ANR Project

Algorithm Design and Analysis for Implicitly and Incompletely Defined Interaction Networks - ANR-07-BLAN-0322

Origin

Hal imported

Collections

Laboratoire Bordelais de Recherche en Informatique (LaBRI) - UMR 5800