Efficient learning of typical finite automata from random walks

Proceedings of the twenty-fifth annual ACM symposium on Theory of Computing Pub Date : 1993-06-01 DOI:10.1145/167088.167191

Y. Freund, M. Kearns, D. Ron, R. Rubinfeld, R. Schapire, Linda Sellie

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引用次数: 96

Abstract

This paper describes new and efficient algorithms for learning deterministic finite automata. Our approach is primarily distinguished by two features: (1) the adoption of an average-case setting to model the ``typical'' labeling of a finite automaton, while retaining a worst-case model for the underlying graph of the automaton, along with (2) a learning model in which the learner is not provided with the means to experiment with the machine, but rather must learn solely by observing the automaton's output behavior on a random input sequence. The main contribution of this paper is in presenting the first efficient algorithms for learning nontrivial classes of automata in an entirely passive learning model. We adopt an on-line learning model in which the learner is asked to predict the output of the next state, given the next symbol of the random input sequence; the goal of the learner is to make as few prediction mistakes as possible. Assuming the learner has a means of resetting the target machine to a fixed start state, we first present an efficient algorithm that article no. IC972648

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从随机漫步中有效学习典型有限自动机

本文描述了一种学习确定性有限自动机的新的高效算法。我们的方法主要由两个特征来区分:(1)采用平均情况设置来模拟有限自动机的“典型”标记，同时保留自动机底层图的最坏情况模型，以及(2)学习模型，其中学习者没有提供与机器进行实验的手段，而是必须通过观察自动机在随机输入序列上的输出行为来学习。本文的主要贡献在于提出了在完全被动学习模型中学习非平凡自动机类的第一个有效算法。我们采用了一种在线学习模型，在这种模型中，学习者被要求在给定随机输入序列的下一个符号的情况下预测下一个状态的输出;学习者的目标是尽可能少地犯预测错误。假设学习器有一种将目标机器重置到固定启动状态的方法，我们首先提出了一种有效的算法。IC972648

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the twenty-fifth annual ACM symposium on Theory of Computing

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