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Poster
in
Workshop: Generalization in Planning (GenPlan '23)

Stochastic Safe Action Model Learning

Zihao Deng · Brendan Juba

Keywords: [ offline learning ] [ method of moments ] [ action model learning ] [ safe learning ]


Abstract:

Hand-crafting models of interactive domains is challenging, especially when the dynamics of the domain are stochastic. Therefore, it's useful to be able to automatically learn such models instead. In this work, we propose an algorithm to learn stochastic planning models where the distribution over the sets of effects for each action has a small support, but the sets may set values to an arbitrary number of state attributes (a.k.a. fluents). This class captures the benchmark domains used in stochastic planning, in contrast to the prior work that assumed independence of the effects on individual fluents. Our algorithm has polynomial time and sample complexity when the size of the support is bounded by a constant. Importantly, our learning is safe in that we learn offline from example trajectories and we guarantee that actions are only permitted in states where our model of the dynamics is guaranteed to be accurate. Moreover, we guarantee approximate completeness of the model, in the sense that if the examples are achieving goals from some distribution, then with high probability there will exist plans in our learned model that achieve goals from the same distribution.

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