Colloque avec actes et comité de lecture. internationale.International audiencePart of the recent work in AI planning is concerned with the development of algorithms that regard planning as a combinatorial search problem. The underlying representation language is basically propositional logic. While this is adequate for many domains, it is not clear if it remains so for problems that involve numerical constraints, or optimization of complex objective functions. Moreover, the propositional representation imposes restrictions on the domain knowledge that can be utilized by these approaches. In order to address these issues, we propose moving to the more expressive language of Integer Programming (IP). We show how capacity constraints can be e...
In this paper we describe a new branch and bound algorithm for solving 0-1 integer linear programs (...
AbstractThe idea of synthesizing bounded length plans by compiling planning problems into a combinat...
When given a plan by a satisficing planner, it is usually not intuitive as to how close it is to the...
Recent research has shown the promise of using propositional reasoning and search to solve AI planni...
This paper describes ILP-PLAN, a framework for solving AI planning problems represented as integer l...
The conventional wisdom in the planning community is that planners based on integer programming (IP)...
In this paper we describe two Propositional Satisfiability-based algorithms for solving 0-1 integer ...
Constraint Programming provides a natural way to encode combinatorial search problems. AI Planning p...
Integer programming (discrete optimization) is best used for solving problems involving discrete, wh...
Linear programming has been successfully used to compute admissible heuristics for cost-optimal clas...
Linear programming has been successfully used to compute admissible heuristics for cost-optimal clas...
Decision diagrams (DDs) are graphical structures that can be used to solve discrete optimization pro...
Our goal here is to explore the interplay of constraints and planning, highlighting the differences ...
AbstractLogic constraint satisfaction problems are in general NP-hard and a general deterministic po...
AbstractThis paper considers in a somewhat general setting when a combinatorial optimization problem...
In this paper we describe a new branch and bound algorithm for solving 0-1 integer linear programs (...
AbstractThe idea of synthesizing bounded length plans by compiling planning problems into a combinat...
When given a plan by a satisficing planner, it is usually not intuitive as to how close it is to the...
Recent research has shown the promise of using propositional reasoning and search to solve AI planni...
This paper describes ILP-PLAN, a framework for solving AI planning problems represented as integer l...
The conventional wisdom in the planning community is that planners based on integer programming (IP)...
In this paper we describe two Propositional Satisfiability-based algorithms for solving 0-1 integer ...
Constraint Programming provides a natural way to encode combinatorial search problems. AI Planning p...
Integer programming (discrete optimization) is best used for solving problems involving discrete, wh...
Linear programming has been successfully used to compute admissible heuristics for cost-optimal clas...
Linear programming has been successfully used to compute admissible heuristics for cost-optimal clas...
Decision diagrams (DDs) are graphical structures that can be used to solve discrete optimization pro...
Our goal here is to explore the interplay of constraints and planning, highlighting the differences ...
AbstractLogic constraint satisfaction problems are in general NP-hard and a general deterministic po...
AbstractThis paper considers in a somewhat general setting when a combinatorial optimization problem...
In this paper we describe a new branch and bound algorithm for solving 0-1 integer linear programs (...
AbstractThe idea of synthesizing bounded length plans by compiling planning problems into a combinat...
When given a plan by a satisficing planner, it is usually not intuitive as to how close it is to the...