Efficient Domain-Independent Experimentation
Abstract
Planning systems often make the assumption that omniscient world knowledge is available. Our approach makes the more realistic assumption that the initial knowledge about the actions is incomplete, and uses experimentation as a learning mechanism when the missing knowledge causes an execution failure. Previous work on learning by experimentation has not addressed the issue of how to choose good experiments, and much research on learning from failure has relied on background knowledge to build explanations that pinpoint directly the causes of failures. We want to investigate the potential of a system for efficient learning by experimentation without such background knowledge. This paper describes domain-independent heuristics that compare possible hypotheses and choose the ones most likely to cause the failure. These heuristics extract information solely from the domain operators initially available for planning (incapable of producing such explanation) and the planner's experiences in interacting with the environment. Our approach has been implemented in EXPO, a system that uses PRODIGY as a baseline planner and improves its domain knowledge in several domains. The empirical results presented show that EXPO's heuristics dramatically reduce the number of experiments needed to refine incomplete operators. Planning, Learning, Experimentation, Theory, Refinement, Incomplete theories.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jan 01, 1993
- Accession Number
- ADA269530
Entities
People
- Yolanda Gil
Organizations
- Wright Laboratory