Bi-Weekly Talk: Exploring Sparse Graphs with Advice

Mittwoch, 17.04.2019, 10.30 Uhr

Ort: RWTH Aachen University, Informatikzentrum - Ahornstr. 55, Erweiterungsgebäude E3, Raum 9u10

Vortragender: Janosch Fuchs



The graph exploration problem is a theoretical and abstract model, where an algorithm has to decide how the agent, also called explorer, moves through a network with n vertices and m edges such that every point of interest is visited at least once. For its decisions, the knowledge of the algorithm is limited by the perception capacities of the explorer. We look at the fixed graph scenario proposed by Kalyanasundaram and Pruhs, where the explorer starts at a vertex of the network and sees all reachable vertices, their unique names and their distance from the current position. Because the algorithm only learns the structure of the graph during computation, it cannot deterministically compute an optimal tour that visits every vertex at least once without prior knowledge. Therefore, we are interested in the amount of crucial a-priori information needed to solve the problem optimally, which we measure in terms of the well-studied model of advice complexity. Here, a deterministic algorithm can at any time access a binary advice tape written beforehand by an oracle that knows the optimal solution, the graph and the behavior of the algorithm. The number of bits read by the algorithm until the end of computation, is called the advice complexity. We look at different variations of the graph exploration problem and distinguish between directed or undirected edges, cyclic or non-cyclic solutions, unit costs or individual costs for the edges and different amounts of a-priori structural knowledge of the explorer. For general graphs, it is known that O(n\log(n)) bits of advice suffice to compute an optimal solution. In this work, we present algorithms with an advice complexity of O(m), thus improving the classical bound for sparse graphs.