Propagating regular counting constraints
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Beldiceanu, Nicolas
Flener, P
Pearson, J
Van Hentenryck, Pascal
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AAAI Press
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Constraints over finite sequences of variables are ubiquitous in sequencing and timetabling. This led to general modelling techniques and generic propagators, often based on deterministic finite automata (DFA) and their extensions. We consider counter-DFAs (cDFA). which provide concise models for regular counting constraints, that is constraints over the number of times a regular-language pattern occurs in a sequence. We show how to enforce domain consistency in polynomial time for at-most and at-least regular counting constraints based on the frequent case of a cDFA with only accepting states and a single counter that can be increased by transitions. We also show that the satisfaction of exact regular counting constraints is NP-hard and that an incomplete propagator for ex-act regular counting constraints is faster and provides more pruning than the existing propagator from (Beldiceanu, Carls- son, and Petit 2004). Finally, by avoiding the unrolling of the cDFA used by CostRegular, the space complexity reduces from 0(n · |Σ| · |Q|) to 0(n · (|Σ| + |Q|))% where Σ is the alphabet and Q the state set of the cDFA.
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Sequential Decision-Making with Big Data: Papers from the AAAI-14 Workshop
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2037-12-31