In this paper, we focus on the inference of mutex groups in the lifted (PDDL) representation. We formalize the inference and prove that the most commonly used translator from the Fast Downward (FD) planning system infers a certain subclass of mutex groups, called fact-alternating mutex groups (fam-groups). Based on that, we show that the previously proposed fam-groups-based pruning techniques for the STRIPS representation can be utilized during the grounding process with lifted fam-groups, i.e., before the full STRIPS representation is known. Furthermore, we propose an improved inference algorithm for lifted fam-groups that produces a richer set of fam-groups than the FD translator and we demonstrate a positive impact on the number of prune...
In recent years, heuristic search methods for classical plan-ning have achieved remarkable results. ...
AbstractI present a probabilistic analysis of prepositional STRIPS planning. The analysis considers ...
Hybrid PDDL+ models are amongst the most advanced models of systems and the resulting problems are n...
Heuristics for lifted planning are not yet as informed as the best heuristics for ground planning. R...
Classical planning tasks are modelled in PDDL which is a schematic language based on first-order log...
Simplifying classical planning tasks by removing operators while preserving at least one optimal sol...
Planning problems are usually modeled using lifted representations, they specify predicates and acti...
Both search-based and translation-based planning systems usually operate on grounded representations...
In previous work we have shown that grounding, while used by most (if not all) modern state-of-the-a...
Fast Downward is a classical planning system based on heuristic search. It can deal with general det...
We present a new method for partial order planning in the STRIPS/SNLP style. Our contribution center...
This paper presents a simple, sound, complete, and systematic algorithm for domain independent STR...
Planning with numeric state variables has been a challenge for many years, and was a part of the 3rd...
In recent years, heuristic search methods for classical planning have achieved remarkable results. T...
Planning with numeric state variables has been a challenge for many years, and was a part of the 3rd...
In recent years, heuristic search methods for classical plan-ning have achieved remarkable results. ...
AbstractI present a probabilistic analysis of prepositional STRIPS planning. The analysis considers ...
Hybrid PDDL+ models are amongst the most advanced models of systems and the resulting problems are n...
Heuristics for lifted planning are not yet as informed as the best heuristics for ground planning. R...
Classical planning tasks are modelled in PDDL which is a schematic language based on first-order log...
Simplifying classical planning tasks by removing operators while preserving at least one optimal sol...
Planning problems are usually modeled using lifted representations, they specify predicates and acti...
Both search-based and translation-based planning systems usually operate on grounded representations...
In previous work we have shown that grounding, while used by most (if not all) modern state-of-the-a...
Fast Downward is a classical planning system based on heuristic search. It can deal with general det...
We present a new method for partial order planning in the STRIPS/SNLP style. Our contribution center...
This paper presents a simple, sound, complete, and systematic algorithm for domain independent STR...
Planning with numeric state variables has been a challenge for many years, and was a part of the 3rd...
In recent years, heuristic search methods for classical planning have achieved remarkable results. T...
Planning with numeric state variables has been a challenge for many years, and was a part of the 3rd...
In recent years, heuristic search methods for classical plan-ning have achieved remarkable results. ...
AbstractI present a probabilistic analysis of prepositional STRIPS planning. The analysis considers ...
Hybrid PDDL+ models are amongst the most advanced models of systems and the resulting problems are n...