We contribute to recent efforts in relating two approaches to automatic synthesis, namely, automated planning and discrete reactive synthesis. First, we develop a declarative characterization of the standard "fairness" assumption on environments in non-deterministic planning, and show that strong-cyclic plans are correct solution concepts for fair environments. This complements, and arguably completes, the existing foundational work on non-deterministic planning, which focuses on characterizing (and computing) plans enjoying special "structural" properties, namely loopy but closed policy structures. Second, we provide an encoding suitable for reactive synthesis that avoids the naive exponential state space blowup. To do ...
Abstract. It has been shown recently that deterministic conformant planning problems can be translat...
Controller synthesis is the automatic construction a correct system from its specification. This oft...
In this paper, we introduce a novel rule for synthesis of reactive systems, applicable to systems ma...
Whereas previous work on non-deterministic planning has focused on characterizing (and computing) &q...
We contribute to recent efforts in relating two approaches to automatic synthesis, namely, automated...
We consider the problem of planning in environments where the state is fully observable, actions hav...
The behavior composition problem involves the automatic synthesis of a controller able to “realize” ...
We consider a generalized form of planning, possibly involving loops, that arises in nondeterministi...
Planning domains represent what an agent assumes or believes about the environment it acts in. In th...
Reactive planning using assumptions is a well-known approach to tackle complex planning problems for...
Rather than committing to a particular future course of events, reaction plans prescribe reactions t...
Reactive planning using assumptions is a well-known ap-proach to tackle complex planning problems fo...
We create a unified framework for analyzing and synthesizing plans with loops for solving problems ...
We show how reactive synthesis and automatedplanning can be leveraged effectively to find non-maxima...
International audienceIn this paper, we introduce a novel rule for synthesis of reactive systems, ap...
Abstract. It has been shown recently that deterministic conformant planning problems can be translat...
Controller synthesis is the automatic construction a correct system from its specification. This oft...
In this paper, we introduce a novel rule for synthesis of reactive systems, applicable to systems ma...
Whereas previous work on non-deterministic planning has focused on characterizing (and computing) &q...
We contribute to recent efforts in relating two approaches to automatic synthesis, namely, automated...
We consider the problem of planning in environments where the state is fully observable, actions hav...
The behavior composition problem involves the automatic synthesis of a controller able to “realize” ...
We consider a generalized form of planning, possibly involving loops, that arises in nondeterministi...
Planning domains represent what an agent assumes or believes about the environment it acts in. In th...
Reactive planning using assumptions is a well-known approach to tackle complex planning problems for...
Rather than committing to a particular future course of events, reaction plans prescribe reactions t...
Reactive planning using assumptions is a well-known ap-proach to tackle complex planning problems fo...
We create a unified framework for analyzing and synthesizing plans with loops for solving problems ...
We show how reactive synthesis and automatedplanning can be leveraged effectively to find non-maxima...
International audienceIn this paper, we introduce a novel rule for synthesis of reactive systems, ap...
Abstract. It has been shown recently that deterministic conformant planning problems can be translat...
Controller synthesis is the automatic construction a correct system from its specification. This oft...
In this paper, we introduce a novel rule for synthesis of reactive systems, applicable to systems ma...