Lower Bounds for Adaptive Relaxation-Based Algorithms for Single-Source Shortest Paths

Abstract

We consider the classical single-source shortest path problem in directed weighted graphs. D.~Eppstein proved recently an (n3) lower bound for oblivious algorithms that use relaxation operations to update the tentative distances from the source vertex. We generalize this result by extending this (n3) lower bound to adaptive algorithms that, in addition to relaxations, can perform queries involving some simple types of linear inequalities between edge weights and tentative distances. Our model captures as a special case the operations on tentative distances used by Dijkstra's algorithm.

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