Title :
Another SAT to CSP conversion
Author :
Roussel, Olivier
Author_Institution :
CRIL, CNRS, Lens, France
Abstract :
This work presents a transformation of a SAT problem into another SAT problem which, in turn, can be directly transformed into a binary CSP instance. This transformation is based on a local model enumeration procedure which can be controlled to get an overall polynomial transformation. A method to reduce the size of the converted formula is proposed. We also show that maintaining k-consistency on the CSP problem is equivalent to using unit propagation on a compiled form of the equivalent SAT problem. This transformation draws another natural bridge between the SAT and the CSP problems which hopefully, should benefit both communities.
Keywords :
computability; constraint theory; polynomials; problem solving; SAT problem; binary CSP instance; constraint satisfaction problem; polynomial transformation; problem solving; satisfiability; Artificial intelligence; Bridges; Cost accounting; Encoding; Lenses; Polynomials;
Conference_Titel :
Tools with Artificial Intelligence, 2004. ICTAI 2004. 16th IEEE International Conference on
Print_ISBN :
0-7695-2236-X
DOI :
10.1109/ICTAI.2004.33
