Distilling weighted finite automata from arbitrary probabilistic models

Finite-State Methods and Natural Language Processing Pub Date : 2019-09-01 DOI:10.18653/v1/W19-3112
A. Suresh, Brian Roark, M. Riley, Vlad Schogol
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引用次数: 6

Abstract

Weighted finite automata (WFA) are often used to represent probabilistic models, such as n-gram language models, since they are efficient for recognition tasks in time and space. The probabilistic source to be represented as a WFA, however, may come in many forms. Given a generic probabilistic model over sequences, we propose an algorithm to approximate it as a weighted finite automaton such that the Kullback-Leibler divergence between the source model and the WFA target model is minimized. The proposed algorithm involves a counting step and a difference of convex optimization, both of which can be performed efficiently. We demonstrate the usefulness of our approach on some tasks including distilling n-gram models from neural models.
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从任意概率模型中提取加权有限自动机
加权有限自动机(WFA)通常用于表示概率模型,如n-gram语言模型,因为它们对于时间和空间的识别任务是有效的。然而,要表示为WFA的概率源可以有多种形式。给定序列上的一般概率模型,我们提出了一种将其近似为加权有限自动机的算法,使得源模型和WFA目标模型之间的Kullback-Leibler散度最小。该算法包含一个计数步骤和一个差分凸优化,两者都能有效地执行。我们证明了我们的方法在一些任务上的有效性,包括从神经模型中提取n-gram模型。
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Finite-State Methods and Natural Language Processing
Finite-State Methods and Natural Language Processing
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