We introduce a width parameter that bounds the complexity of classical planning problems and domains, along with a simple but effective blind-search procedure that runs in time that is exponential in the problem width. We show that many benchmark domains have a bounded and small width provided thatgoals are restricted to single atoms, and hence that such problems are provably solvable in low polynomial time. We then focus on the practical value of these ideas over the existing benchmarks which feature conjunctive goals. We show that the blind-search procedure can be used for both serializing the goal into subgoals and for solving the resulting problems, resulting in a ‘blind’ planner that competes well with a best-first search planner guide...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
Complexity analysis of planning is problematic. Even very simple planning languages are PSPACE-compl...
We consider the problem of finding generalized plans for sit-uations where the number of objects may...
We introduce a width parameter that bounds the complexity of classical planning problems and domains...
Abstract. We have recently shown that classical planning problems can be characterized in terms of a...
Abstract. We have recently shown that classical planning problems can be characterized in terms of a...
It has been observed that in many of the benchmark planning domains, atomic goals can be reached wit...
It has been shown recently that heuristic and width-based search can be combined to produce planning...
In the AIPS98 Planning Contest, the hsp planner showed that heuristic search planners can be competi...
AbstractIn the AIPS98 Planning Contest, the hsp planner showed that heuristic search planners can be...
It has been shown recently that the performance of greedy best-first search (GBFS) for computing pla...
The Graphplan algorithm for generating optimal make-span plans containing parallel sets of actions r...
Since Kautz and Selman\u27s 1992 ECAI paper on satisfiability based planning, there has been several...
This thesis explores limitations of heuristic search planning, and presents techniques to overcome t...
a domain-independent planning algorithm that implements the family of heuristic search planners that...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
Complexity analysis of planning is problematic. Even very simple planning languages are PSPACE-compl...
We consider the problem of finding generalized plans for sit-uations where the number of objects may...
We introduce a width parameter that bounds the complexity of classical planning problems and domains...
Abstract. We have recently shown that classical planning problems can be characterized in terms of a...
Abstract. We have recently shown that classical planning problems can be characterized in terms of a...
It has been observed that in many of the benchmark planning domains, atomic goals can be reached wit...
It has been shown recently that heuristic and width-based search can be combined to produce planning...
In the AIPS98 Planning Contest, the hsp planner showed that heuristic search planners can be competi...
AbstractIn the AIPS98 Planning Contest, the hsp planner showed that heuristic search planners can be...
It has been shown recently that the performance of greedy best-first search (GBFS) for computing pla...
The Graphplan algorithm for generating optimal make-span plans containing parallel sets of actions r...
Since Kautz and Selman\u27s 1992 ECAI paper on satisfiability based planning, there has been several...
This thesis explores limitations of heuristic search planning, and presents techniques to overcome t...
a domain-independent planning algorithm that implements the family of heuristic search planners that...
Automated planning is known to be computationally hard in the general case. Propositional planning i...
Complexity analysis of planning is problematic. Even very simple planning languages are PSPACE-compl...
We consider the problem of finding generalized plans for sit-uations where the number of objects may...