Combines Contraction Hierarchies with the Connection Scan Algorithm to improve shortest-path queries over bidirectional Dijkstra or A* on Contraction Hierarchies.
Search Space Contraction in Canonical Labeling of Graphs
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abstract
The individualization-refinement paradigm for computing a canonical labeling and the automorphism group of a graph is investigated. A new algorithmic design aimed at reducing the size of the associated search space is introduced, and a new tool, named "Traces", is presented, together with experimental results and comparisons with existing software, such as McKay's "nauty". It is shown that the approach presented here leads to a huge reduction in the search space, thereby making computation feasible for several classes of graphs which are hard for all the main canonical labeling tools in the literature.
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cs.DS 1years
2019 1verdicts
UNVERDICTED 1representative citing papers
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Combining the Connection Scan Algorithm with Contraction Hierarchies
Combines Contraction Hierarchies with the Connection Scan Algorithm to improve shortest-path queries over bidirectional Dijkstra or A* on Contraction Hierarchies.