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
1 Pith paper cite this work. Polarity classification is still indexing.
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.
fields
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.