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Conference Papers Year : 2021

Almost-Optimal Deterministic Treasure Hunt in Arbitrary Graphs

Abstract

A mobile agent navigating along edges of a simple connected graph, either finite or countably infinite, has to find an inert target (treasure) hidden in one of the nodes. This task is known as treasure hunt. The agent has no a priori knowledge of the graph, of the location of the treasure or of the initial distance to it. The cost of a treasure hunt algorithm is the worst-case number of edge traversals performed by the agent until finding the treasure. Awerbuch, Betke, Rivest and Singh [3] considered graph exploration and treasure hunt for finite graphs in a restricted model where the agent has a fuel tank that can be replenished only at the starting node s. The size of the tank is B = 2(1 + α)r, for some positive real constant α, where r, called the radius of the graph, is the maximum distance from s to any other node. The tank of size B allows the agent to make at most B edge traversals between two consecutive visits at node s. Let e(d) be the number of edges whose at least one extremity is at distance less than d from s. Awerbuch, Betke, Rivest and Singh [3] conjectured that it is impossible to find a treasure hidden in a node at distance at most d at cost nearly linear in e(d). We first design a deterministic treasure hunt algorithm working in the model without any restrictions on the moves of the agent at cost O(e(d) log d), and then show how to modify this algorithm to work in the model from [3] with the same complexity. Thus we refute the above twenty-year-old conjecture. We observe that no treasure hunt algorithm can beat cost Θ(e(d)) for all graphs and thus our algorithms are also almost optimal.
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Dates and versions

hal-03287594 , version 1 (15-07-2021)

Identifiers

  • HAL Id : hal-03287594 , version 1

Cite

Sébastien Bouchard, Yoann Dieudonne, Arnaud Labourel, Andrzej Pelc. Almost-Optimal Deterministic Treasure Hunt in Arbitrary Graphs. International Colloquium on Automata, Languages and Programming (ICALP) 2021, Jul 2021, Glasgow, United Kingdom. ⟨hal-03287594⟩
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