Despite its success, the delete relaxation has significant pitfalls. Recent work has devised the red-black planning framework, where red variables take the relaxed semantics (accumulating their values), while black variables take the regular semantics. Provided the red variables are chosen so that red-black plan generation is tractable, one can generate such a plan for every search state, and take its length as the heuristic distance estimate. Previous results were not suitable for this purpose because they identified tractable fragments for red-black plan existence, as opposed to red-black plan generation. We identify a new fragment of red-black planning, that fixes this issue. We devise machinery to efficiently generate red-black plans, a...
The FF relaxed plan heuristic is one of the most effective techniques in domain-independent satisfic...
AbstractThe automatic derivation of heuristic functions for guiding the search for plans is a fundam...
Heuristic functions based on the delete relaxation compute upper and lower bounds on the optimal del...
Despite its success, the delete relaxation has significant pit-falls. Recent work has devised the re...
Despite its success, the delete relaxation has significant pitfalls. In an attempt to overcome these...
Despite its success, the delete relaxation has significant pit-falls. In an attempt to overcome thes...
Red-black planning is a recent approach to partial delete re-laxation, where red variables take the ...
Despite its success in both satisficing and optimal planning, the delete relaxation has significant ...
Red-black planning is a systematic approach to partial delete relaxation, taking into account some o...
Despite its success in both satisficing and optimal planning, thedelete relaxation has significant p...
Red-black planning delete-relaxes only some of the state variables. This is coarse-grained in that, ...
The currently dominant approach to domain-independent planning is planning as heuristic search, with...
The currently dominant approach to domain-independent planning is planning as heuristic search, with...
The FF relaxed plan heuristic is one of the most effective techniques in domain-independent satisfic...
The automatic derivation of heuristic functions for guiding the search for plans in large spaces is ...
The FF relaxed plan heuristic is one of the most effective techniques in domain-independent satisfic...
AbstractThe automatic derivation of heuristic functions for guiding the search for plans is a fundam...
Heuristic functions based on the delete relaxation compute upper and lower bounds on the optimal del...
Despite its success, the delete relaxation has significant pit-falls. Recent work has devised the re...
Despite its success, the delete relaxation has significant pitfalls. In an attempt to overcome these...
Despite its success, the delete relaxation has significant pit-falls. In an attempt to overcome thes...
Red-black planning is a recent approach to partial delete re-laxation, where red variables take the ...
Despite its success in both satisficing and optimal planning, the delete relaxation has significant ...
Red-black planning is a systematic approach to partial delete relaxation, taking into account some o...
Despite its success in both satisficing and optimal planning, thedelete relaxation has significant p...
Red-black planning delete-relaxes only some of the state variables. This is coarse-grained in that, ...
The currently dominant approach to domain-independent planning is planning as heuristic search, with...
The currently dominant approach to domain-independent planning is planning as heuristic search, with...
The FF relaxed plan heuristic is one of the most effective techniques in domain-independent satisfic...
The automatic derivation of heuristic functions for guiding the search for plans in large spaces is ...
The FF relaxed plan heuristic is one of the most effective techniques in domain-independent satisfic...
AbstractThe automatic derivation of heuristic functions for guiding the search for plans is a fundam...
Heuristic functions based on the delete relaxation compute upper and lower bounds on the optimal del...