A great challenge in developing planning systems for practical applications is the difficulty of acquiring the domain information needed to guide such systems. This paper describes a way to learn some of that knowledge. More specifically: • We introduce a theoretical basis for formally defining algorithms that learn preconditions for HTN methods. • We describe CaMeL, a supervised, eager, and incremental learning process for preconditions of HTN methods. We state and prove theorems about CaMeL’s soundness, completeness, and convergence properties. • We present empirical results about CaMeL’s convergence under various conditions. Among other things, CaMeL converges the fastest on the preconditions of the HTN methods that are needed the most o...
Hierarchical Task Network (HTN) planning is an effective yet knowledge intensive problem-solving tec...
International audienceThe Hierarchical Task Network (HTN) formalism is very expressive and used to e...
The Hierarchical Task Network ({\sf HTN}) formalism is very expressive and used to express a wide va...
We describe HDL, an algorithm that learns HTN do-main descriptions by examining plan traces produced...
A significant challenge in developing planning systems for practical applications is the difficulty ...
To apply hierarchical task network (HTN) plan-ning to real-world planning problems, one needs to enc...
We describe HTN-MAKER, an algorithm for learning hier-archical planning knowledge in the form of dec...
We consider how to learn Hierarchical Task Networks (HTNs) for planning problems in which both the q...
Although HTN planning is in general undecidable, there are many syntactically identifiable sub-class...
For HTN planning, we formally characterize and classify four kinds of problem spaces in which each n...
Although HTN planning is in general undecidable, there are many syntactically identifiable sub-class...
Hierarchical Task Network (HTN) planning is the problem of decomposing an initial task into a sequen...
We describe HTN-Maker, an algorithm for learning hierarchical planning knowledge in the form of task...
A significant challenge in developing plan-ning systems for practical applications is the difficulty...
For HTN planning, we formally characterize and classify four kinds of problem spaces in which each n...
Hierarchical Task Network (HTN) planning is an effective yet knowledge intensive problem-solving tec...
International audienceThe Hierarchical Task Network (HTN) formalism is very expressive and used to e...
The Hierarchical Task Network ({\sf HTN}) formalism is very expressive and used to express a wide va...
We describe HDL, an algorithm that learns HTN do-main descriptions by examining plan traces produced...
A significant challenge in developing planning systems for practical applications is the difficulty ...
To apply hierarchical task network (HTN) plan-ning to real-world planning problems, one needs to enc...
We describe HTN-MAKER, an algorithm for learning hier-archical planning knowledge in the form of dec...
We consider how to learn Hierarchical Task Networks (HTNs) for planning problems in which both the q...
Although HTN planning is in general undecidable, there are many syntactically identifiable sub-class...
For HTN planning, we formally characterize and classify four kinds of problem spaces in which each n...
Although HTN planning is in general undecidable, there are many syntactically identifiable sub-class...
Hierarchical Task Network (HTN) planning is the problem of decomposing an initial task into a sequen...
We describe HTN-Maker, an algorithm for learning hierarchical planning knowledge in the form of task...
A significant challenge in developing plan-ning systems for practical applications is the difficulty...
For HTN planning, we formally characterize and classify four kinds of problem spaces in which each n...
Hierarchical Task Network (HTN) planning is an effective yet knowledge intensive problem-solving tec...
International audienceThe Hierarchical Task Network (HTN) formalism is very expressive and used to e...
The Hierarchical Task Network ({\sf HTN}) formalism is very expressive and used to express a wide va...