Add to ORKGIn this work we give a first tractability analysis of Compressed Path Databases, space efficient oracles used to very quickly identify the first arc on a shortest path. We study the complexity of computing an optimal compressed path database for general directed and undirected graphs. We find that in both cases the problem is NP-complete. We also show that, for graphs which can be decomposed along articulalion points, the problem can be decomposed into independent parts, with a corresponding reduction in its level of difficulty. In particular, this leads to simple and tractable algorithms which yield optimal compression results for trees
We study the NP-hard Shortest Path Most Vital Edges problem arising in the context of analyzing netw...
We consider optimal and anytime algorithms for the Euclidean Shortest Path Problem (ESPP) in two dim...
Two compression methods for representing graphs are presented, in conjunction with algorithms applyi...
Compressed Path Databases (CPDs) are a state-of-the-art method for path planning. They record, for e...
Compressed Path Databases (CPD) are powerful database driven methods for shortest path extraction in...
Given a weighted directed graph G=(V;E;w), where w is non-negative weight function, G’ is a graph ob...
Abstract. In this paper, we study a class of optimal path problems with the following phenomenon: Th...
Most existing pathfinding methods are based on runtime search. Despite an impressive progress achiev...
Compressed Path Databases (CPDs) are a leading technique for optimal pathfinding in graphs with stat...
Compressed path databases (CPDs) are a state-of-the-art approach to path planning, a core AI problem...
One of the problems that arises from the continuously growing amount of data is that it slows down a...
We here investigate on the complexity of computing the tree-length and the tree-breadth of any graph...
Let G be an unweighted and undirected graph of n nodes, and let D be the n x n matrix storing the Al...
AbstractWe first consider the problem of partitioning the edges of a graph G into bipartite cliques ...
Let G be a directed graph with n vertices, m edges, and non-negative edge costs. Given G, a fixed so...
We study the NP-hard Shortest Path Most Vital Edges problem arising in the context of analyzing netw...
We consider optimal and anytime algorithms for the Euclidean Shortest Path Problem (ESPP) in two dim...
Two compression methods for representing graphs are presented, in conjunction with algorithms applyi...
Compressed Path Databases (CPDs) are a state-of-the-art method for path planning. They record, for e...
Compressed Path Databases (CPD) are powerful database driven methods for shortest path extraction in...
Given a weighted directed graph G=(V;E;w), where w is non-negative weight function, G’ is a graph ob...
Abstract. In this paper, we study a class of optimal path problems with the following phenomenon: Th...
Most existing pathfinding methods are based on runtime search. Despite an impressive progress achiev...
Compressed Path Databases (CPDs) are a leading technique for optimal pathfinding in graphs with stat...
Compressed path databases (CPDs) are a state-of-the-art approach to path planning, a core AI problem...
One of the problems that arises from the continuously growing amount of data is that it slows down a...
We here investigate on the complexity of computing the tree-length and the tree-breadth of any graph...
Let G be an unweighted and undirected graph of n nodes, and let D be the n x n matrix storing the Al...
AbstractWe first consider the problem of partitioning the edges of a graph G into bipartite cliques ...
Let G be a directed graph with n vertices, m edges, and non-negative edge costs. Given G, a fixed so...
We study the NP-hard Shortest Path Most Vital Edges problem arising in the context of analyzing netw...
We consider optimal and anytime algorithms for the Euclidean Shortest Path Problem (ESPP) in two dim...
Two compression methods for representing graphs are presented, in conjunction with algorithms applyi...