Recent research has shown the promise of using propositional reasoning and search to solve AI planning problems. In this paper, we further explore this area by applying Integer Programming to solve AI planning problems. The application of Integer Programming to AI planning has a potentially significant advantage, as it allows quite naturally for the incorporation of numerical constraints and objectives into the planning domain. Moreover, the application of Integer Programming to AI planning addresses one of the challenges in propositional reasoning posed by Kautz and Selman, who conjectured that the principal technique used to solve Integer Programs---the linear programming (LP) relaxation---is not useful when applied to propositional sear...
Planning has made significant progress since its inception in the 1970s, in terms both of the effici...
Industry wants formal methods for dealing with combinatorial dynamical systems that are provably cor...
Planning—in its classical sense—is the problem of finding a sequence of actions that achieves a pred...
Colloque avec actes et comité de lecture. internationale.International audiencePart of the recent wo...
The conventional wisdom in the planning community is that planners based on integer programming (IP)...
This paper describes ILP-PLAN, a framework for solving AI planning problems represented as integer l...
When integer programming (IP) models are used in operational situations there is a need to consider ...
We present some preliminary work on modeling AI planning as a Mixed Integer Programming (MIP) proble...
Our goal here is to explore the interplay of constraints and planning, highlighting the differences ...
We present expert system (ES) and Integer Programming (IP) formulations of an NP-complete constraint...
Solving AI planning problems by transformation into (normal) logic programs and computing answer set...
Integer programming (discrete optimization) is best used for solving problems involving discrete, wh...
We designed a simple computational exercise to compare weak and strong integer programming formulati...
Integer programming (IP), also known as discrete optimization, is a way of modelling a very wide ran...
An AI planning problem is one in which an agent capable of perceiving certain states and of performi...
Planning has made significant progress since its inception in the 1970s, in terms both of the effici...
Industry wants formal methods for dealing with combinatorial dynamical systems that are provably cor...
Planning—in its classical sense—is the problem of finding a sequence of actions that achieves a pred...
Colloque avec actes et comité de lecture. internationale.International audiencePart of the recent wo...
The conventional wisdom in the planning community is that planners based on integer programming (IP)...
This paper describes ILP-PLAN, a framework for solving AI planning problems represented as integer l...
When integer programming (IP) models are used in operational situations there is a need to consider ...
We present some preliminary work on modeling AI planning as a Mixed Integer Programming (MIP) proble...
Our goal here is to explore the interplay of constraints and planning, highlighting the differences ...
We present expert system (ES) and Integer Programming (IP) formulations of an NP-complete constraint...
Solving AI planning problems by transformation into (normal) logic programs and computing answer set...
Integer programming (discrete optimization) is best used for solving problems involving discrete, wh...
We designed a simple computational exercise to compare weak and strong integer programming formulati...
Integer programming (IP), also known as discrete optimization, is a way of modelling a very wide ran...
An AI planning problem is one in which an agent capable of perceiving certain states and of performi...
Planning has made significant progress since its inception in the 1970s, in terms both of the effici...
Industry wants formal methods for dealing with combinatorial dynamical systems that are provably cor...
Planning—in its classical sense—is the problem of finding a sequence of actions that achieves a pred...