Add to ORKGThe Blackbox planning system unifies the planning as satisfiability framework (Kautz and Selman 1992, 1996) with the plan graph approach to STRIPS planning (Blum and Furst 1995). We show that STRIPS problems can be directly translated into SAT and efficiently solved using new randomized systematic solvers. For certain computationally challenging benchmark problems this unified approach outperforms both SATPLAN and Graphplan alone. We also demonstrate that polynomialtime SAT simplification algorithms applied to the encoded problem instances are a powerful complement to the “mutex ” propagation algorithm that works directly on the plan graph.
AbstractWe introduce a new approach to planning in STRIPS-like domains based on constructing and ana...
We introduce a novel method for encoding cost optimal delete-free STRIPS Planning as SAT. Our method...
We argued in our Flexible Graphplan (FGP) work that the classical definition of the planning problem...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
TheBlackbox planning system unifies the planning as satisfiability framework (Kautz and Selman 1992,...
In recent work we showed that planning problems can be efficiently solved by general propositional ...
In recent work we showed that planning problems can be efficiently solved by general propositional s...
In recent work we showed that planning prob-lems can be efficiently solved by general propo-sitional...
AbstractWe introduce a new approach to planning in STRIPS-like domains based on constructing and ana...
We introduce a new approach to planning in STRIPS-like domains based on con-structing and analyzing ...
We introduce a new approach to planning in STRIPS-like domains based on constructing and analyzing a...
AbstractThe idea of synthesizing bounded length plans by compiling planning problems into a combinat...
AbstractWe introduce a new approach to planning in STRIPS-like domains based on constructing and ana...
We introduce a novel method for encoding cost optimal delete-free STRIPS Planning as SAT. Our method...
We argued in our Flexible Graphplan (FGP) work that the classical definition of the planning problem...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
The Blackbox planning system unifies the plan-ning as satisfiability framework (Kautz and Sel-man 19...
TheBlackbox planning system unifies the planning as satisfiability framework (Kautz and Selman 1992,...
In recent work we showed that planning problems can be efficiently solved by general propositional ...
In recent work we showed that planning problems can be efficiently solved by general propositional s...
In recent work we showed that planning prob-lems can be efficiently solved by general propo-sitional...
AbstractWe introduce a new approach to planning in STRIPS-like domains based on constructing and ana...
We introduce a new approach to planning in STRIPS-like domains based on con-structing and analyzing ...
We introduce a new approach to planning in STRIPS-like domains based on constructing and analyzing a...
AbstractThe idea of synthesizing bounded length plans by compiling planning problems into a combinat...
AbstractWe introduce a new approach to planning in STRIPS-like domains based on constructing and ana...
We introduce a novel method for encoding cost optimal delete-free STRIPS Planning as SAT. Our method...
We argued in our Flexible Graphplan (FGP) work that the classical definition of the planning problem...