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Paper detail

Learning Deterministic Finite Automata Decompositions from Examples and Demonstrations

The identification of a deterministic finite automaton (DFA) from labeled examples is a well-studied problem in the literature; however, prior work focuses on the identification of monolithic DFAs. Although monolithic DFAs provide accurate descriptions of systems' behavior, they lack simplicity and interpretability; moreover, they fail to capture sub-tasks realized by the system and introduce inductive biases away from the inherent decomposition of the overall task. In this paper, we present an algorithm for learning conjunctions of DFAs from labeled examples. Our approach extends an existing SAT-based method to systematically enumerate Pareto-optimal candidate solutions. We highlight the utility of our approach by integrating it with a state-of-the-art algorithm for learning DFAs from demonstrations. Our experiments show that the algorithm learns sub-tasks realized by the labeled examples, and it is scalable in the domains of interest.

preprint2022arXivOpen access
Niklas LaufferBeyazit YalcinkayaMarcell Vazquez-ChanlatteAmeesh ShahSanjit A. Seshia
Formal Languages and Automata Theory
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Niklas LaufferBeyazit YalcinkayaMarcell Vazquez-ChanlatteAmeesh ShahSanjit A. Seshia

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