The use of restart techniques in complete Satisfiability (SAT) algorithms has made solving hard real world instances possible. Without restarts such algorithms could not solve those instances, in practice. State of the art algorithms for SAT use restart techniques, conflict clause recording (nogoods), heuristics based on activity variable in conflict clauses, among others. Algorithms for SAT and Constraint problems share many techniques; however, the use of restart techniques in constraint programming with finite domains (CP(FD)) is not widely used as it is in SAT. We believe that the use of restarts in CP(FD) algorithms could also be the key to efficiently solve hard combinatorial problems. In this PhD thesis we study restarts and...
International audienceVariable ordering heuristics are one of the key settings for an efficient cons...
Product alternatives suggested by a generative design system often need to be evaluated on qualitati...
AbstractThe performance of backtracking algorithms for solving finite-domain constraint satisfaction...
The use of restart techniques in complete Satisfiability (SAT) algorithms has made solving hard rea...
Applying restarts to complete search algorithms for constraint satisfaction is an effective method f...
In this paper I describe experiments in the application of dynamic restarts used in heuristic satisf...
Restart policy is a widely used class of techniques integral to the efficiency of conflict-driven cl...
This paper introduces restart and nogood recording techniques in the domain of qualitative spatial a...
Abstract. Constraint satisfaction and propositional satisfiability problems are often solved using b...
Despite the fact that the Boolean satisfiability (SAT) problem is NP-complete and believed to be int...
Systematic search is a typical search algorithm in Constraint Programming. The solving performance o...
AbstractLabeling is crucial in the performance of solving timetabling problems with constraint progr...
Recent work has demonstrated that it is possible to boost the efficiency of combinatorial search pr...
Restart-based Branch-and-Bound Search (BBS) is a standard algorithm for solving Constraint Optimizat...
Abstract Designing a search heuristic for constraint programming that is reliable across problem dom...
International audienceVariable ordering heuristics are one of the key settings for an efficient cons...
Product alternatives suggested by a generative design system often need to be evaluated on qualitati...
AbstractThe performance of backtracking algorithms for solving finite-domain constraint satisfaction...
The use of restart techniques in complete Satisfiability (SAT) algorithms has made solving hard rea...
Applying restarts to complete search algorithms for constraint satisfaction is an effective method f...
In this paper I describe experiments in the application of dynamic restarts used in heuristic satisf...
Restart policy is a widely used class of techniques integral to the efficiency of conflict-driven cl...
This paper introduces restart and nogood recording techniques in the domain of qualitative spatial a...
Abstract. Constraint satisfaction and propositional satisfiability problems are often solved using b...
Despite the fact that the Boolean satisfiability (SAT) problem is NP-complete and believed to be int...
Systematic search is a typical search algorithm in Constraint Programming. The solving performance o...
AbstractLabeling is crucial in the performance of solving timetabling problems with constraint progr...
Recent work has demonstrated that it is possible to boost the efficiency of combinatorial search pr...
Restart-based Branch-and-Bound Search (BBS) is a standard algorithm for solving Constraint Optimizat...
Abstract Designing a search heuristic for constraint programming that is reliable across problem dom...
International audienceVariable ordering heuristics are one of the key settings for an efficient cons...
Product alternatives suggested by a generative design system often need to be evaluated on qualitati...
AbstractThe performance of backtracking algorithms for solving finite-domain constraint satisfaction...