We present a new heuristic point-to-point shortest path algorithm based on contraction hierarchies (CH). Given an epsilon >= 0, we can prove that the length of the path computed by our algorithm is at most (1 + ε) times the length of the optimal (shortest) path. Exact CH is based on node contraction: removing nodes from a network and adding shortcuts to preserve shortest path distances. Our heuristic CH tries to avoid adding shortcuts even when a replacement path is (1+epsilon) times longer. However, we cannot avoid all such shortcuts, as we need to ensure that errors do not stack. Combinations with goal-directed techniques bring further speed-ups
We propose a simple and effective heuristic that allows fast generation of a large set of shortest p...
In the shortest path problem we have a weighted graph, a source vertex and a target vertex as an inp...
We study exact, efficient and practical algorithms for route planning in large road networks. Routin...
We present a new heuristic point-to-point shortest path algo-rithm based on contraction hierarchies ...
We consider the problem of computing shortest paths subject to an additional resource constraint suc...
In this paper we consider a variant of the multi-criteria shortest path problem where the different ...
In this paper we consider a variant of the multi-criteria short-est path problem where the different...
Contraction hierarchies (CH) is a prominent preprocessing-based technique that accelerates the compu...
Hierarchical search such as Contraction Hierarchies is a popular and successful branch of optimizati...
While heuristics based on geometric constructs of the networks would appear to improve performance o...
A graph G is contractible to a graph H if there is a set X subseteq E(G), such that G/X is isomorphi...
© Copyright 2014 ACM. The reach of an arc in a network can intuitively be described as an indication...
Time-Dependent Contraction Hierarchies is a routing technique that solves the shortest path problem ...
Contraction hierarchy is the new idea of route planning technique. The theory is merely based on the...
PHAST is to date one of the fastest algorithms for performing single source shortest path (SSSP) que...
We propose a simple and effective heuristic that allows fast generation of a large set of shortest p...
In the shortest path problem we have a weighted graph, a source vertex and a target vertex as an inp...
We study exact, efficient and practical algorithms for route planning in large road networks. Routin...
We present a new heuristic point-to-point shortest path algo-rithm based on contraction hierarchies ...
We consider the problem of computing shortest paths subject to an additional resource constraint suc...
In this paper we consider a variant of the multi-criteria shortest path problem where the different ...
In this paper we consider a variant of the multi-criteria short-est path problem where the different...
Contraction hierarchies (CH) is a prominent preprocessing-based technique that accelerates the compu...
Hierarchical search such as Contraction Hierarchies is a popular and successful branch of optimizati...
While heuristics based on geometric constructs of the networks would appear to improve performance o...
A graph G is contractible to a graph H if there is a set X subseteq E(G), such that G/X is isomorphi...
© Copyright 2014 ACM. The reach of an arc in a network can intuitively be described as an indication...
Time-Dependent Contraction Hierarchies is a routing technique that solves the shortest path problem ...
Contraction hierarchy is the new idea of route planning technique. The theory is merely based on the...
PHAST is to date one of the fastest algorithms for performing single source shortest path (SSSP) que...
We propose a simple and effective heuristic that allows fast generation of a large set of shortest p...
In the shortest path problem we have a weighted graph, a source vertex and a target vertex as an inp...
We study exact, efficient and practical algorithms for route planning in large road networks. Routin...