Relaxed reachability analysis is relevant to efficient grounding, invariant synthesis as well as the computation of relaxation-based heuristics. Planning domains are typically specified in a lifted representation, where the size of the tasks grows exponentially with the number of objects in the world. This growth also affects the analysis of relaxed reachability. We present a task reduction based on symmetries of the lifted representation that allows to perform the same analysis on smaller tasks
This thesis focuses on improving the process of automated planing through symmetry breaking. The aim...
We eliminate symmetry from a problem before searching for a plan. The planning problem with symmetri...
AbstractMuch of the literature on symmetry reductions for model checking assumes a simple model of c...
Relaxed reachability analysis is relevant to efficient grounding, invariant synthesis as well as the...
We present three methods for the integration of symmetries into reachability analysis. Two of them l...
Abstraction techniques are important for solving constraint satisfaction problems with global constr...
Abstraction techniques are important for solving constraint satisfaction problems with global constr...
The exploitation of symmetry in combinatorial search has typically focused on using information abou...
In this report, we consider two promising methods for alleviating the state space explosion problem ...
Classical planning tasks are modelled in PDDL which is a schematic language based on first-order log...
Previous research in Artificial Intelligence has identified the possibility of simplifying planning ...
Searching for computational tools that can further push the boundary of satisficing planning, we sho...
Symmetry breaking has been shown to be an important method to speed up the search in constraint sa...
The construction of symbolic reachability graphs is a useful technique for reducing state explosion ...
Symmetries arise in planning in a variety of ways. This paper describes the ways that symmetry aises...
This thesis focuses on improving the process of automated planing through symmetry breaking. The aim...
We eliminate symmetry from a problem before searching for a plan. The planning problem with symmetri...
AbstractMuch of the literature on symmetry reductions for model checking assumes a simple model of c...
Relaxed reachability analysis is relevant to efficient grounding, invariant synthesis as well as the...
We present three methods for the integration of symmetries into reachability analysis. Two of them l...
Abstraction techniques are important for solving constraint satisfaction problems with global constr...
Abstraction techniques are important for solving constraint satisfaction problems with global constr...
The exploitation of symmetry in combinatorial search has typically focused on using information abou...
In this report, we consider two promising methods for alleviating the state space explosion problem ...
Classical planning tasks are modelled in PDDL which is a schematic language based on first-order log...
Previous research in Artificial Intelligence has identified the possibility of simplifying planning ...
Searching for computational tools that can further push the boundary of satisficing planning, we sho...
Symmetry breaking has been shown to be an important method to speed up the search in constraint sa...
The construction of symbolic reachability graphs is a useful technique for reducing state explosion ...
Symmetries arise in planning in a variety of ways. This paper describes the ways that symmetry aises...
This thesis focuses on improving the process of automated planing through symmetry breaking. The aim...
We eliminate symmetry from a problem before searching for a plan. The planning problem with symmetri...
AbstractMuch of the literature on symmetry reductions for model checking assumes a simple model of c...