We study propagation algorithms for the conjunction of two AllDifferent
constraints. Solutions of an AllDifferent constraint can be seen as perfect
matchings on the variable/value bipartite graph. Therefore, we investigate the
problem of finding simultaneous bipartite matchings. We present an extension of
the famous Hall theorem which characterizes when simultaneous bipartite
matchings exists. Unfortunately, finding such matchings is NP-hard in general.
However, we prove a surprising result that finding a simultaneous matching on a
convex bipartite graph takes just polynomial time. Based on this theoretical
result, we provide the first polynomial time bound consistency algorithm for
the conjunction of two AllDifferent constraints. We identify a pathological
problem on which this propagator is exponentially faster compared to existing
propagators. Our experiments show that this new propagator can offer
significant benefits over existing methods.Comment: AAAI 2010, Proceedings of the Twenty-Fourth AAAI Conference on
Artificial Intelligenc