Tight Bounds for HTN Planning

Authors

Ron Alford,Pascal Bercher,David Aha

U.S. Naval Research Laboratory,Ulm University,U.S. Naval Research Laboratory

Proceedings:

Book One

Volume

Issue:

Proceedings of the International Conference on Automated Planning and Scheduling, 25

Track:

Technical Papers

Downloads:

Download PDF

Abstract:

Although HTN planning is in general undecidable, there are many syntactically identifiable sub-classes of HTN problems that can be decided. For these sub-classes, the decision procedures provide upper complexity bounds. Lower bounds were often not investigated in more detail, however. We generalize a propositional HTN formalization to one that is based upon a function-free first-order logic and provide tight upper and lower complexity results along three axes: whether variables are allowed in operator and method schemas, whether the initial task and methods must be totally ordered, and where recursion is allowed (arbitrary recursion, tail-recursion, and acyclic problems). Our findings have practical implications, both for the reuse of classical planning techniques for HTN planning, and for the design of efficient HTN algorithms.

DOI:

10.1609/icaps.v25i1.13721

ICAPS

Proceedings of the International Conference on Automated Planning and Scheduling, 25

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