Exploration of Faulty Hamiltonian Graphs

February 16, 2016 Β· Declared Dead Β· πŸ› International Journal of Foundations of Computer Science

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Authors David Caissy, Andrzej Pelc arXiv ID 1602.05136 Category cs.DS: Data Structures & Algorithms Citations 2 Venue International Journal of Foundations of Computer Science Last Checked 4 months ago
Abstract
We consider the problem of exploration of networks, some of whose edges are faulty. A mobile agent, situated at a starting node and unaware of which edges are faulty, has to explore the connected fault-free component of this node by visiting all of its nodes. The cost of the exploration is the number of edge traversals. For a given network and given starting node, the overhead of an exploration algorithm is the worst-case ratio (taken over all fault configurations) of its cost to the cost of an optimal algorithm which knows where faults are situated. An exploration algorithm, for a given network and given starting node, is called perfectly competitive if its overhead is the smallest among all exploration algorithms not knowing the location of faults. We design a perfectly competitive exploration algorithm for any ring, and show that, for networks modeled by hamiltonian graphs, the overhead of any DFS exploration is at most 10/9 times larger than that of a perfectly competitive algorithm. Moreover, for hamiltonian graphs of size at least 24, this overhead is less than 6% larger than that of a perfectly competitive algorithm.
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