An Empirical Evaluation of Rule Extraction from Recurrent Neural Networks | Zendy

Qinglong Wang | Zendy; Kaixuan Zhang | Zendy; Alexander G. Ororbia | Zendy; Xinyu Xing | Zendy; Xue Liu | Zendy; C. Lee Giles | Zendy

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An Empirical Evaluation of Rule Extraction from Recurrent Neural Networks

Author(s) -

Qinglong Wang,

Kaixuan Zhang,

Alexander G. Ororbia,

Xinyu Xing,

Xue Liu,

C. Lee Giles

Publication year - 2018

Publication title -

neural computation

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.235

H-Index - 169

eISSN - 1530-888X

pISSN - 0899-7667

DOI - 10.1162/neco_a_01111

Subject(s) - recurrent neural network , computer science , artificial intelligence , black box , machine learning , artificial neural network , rule based machine translation

Rule extraction from black box models is critical in domains that require model validation before implementation, as can be the case in credit scoring and medical diagnosis. Though already a challenging problem in statistical learning in general, the difficulty is even greater when highly nonlinear, recursive models, such as recurrent neural networks (RNNs), are fit to data. Here, we study the extraction of rules from second-order RNNs trained to recognize the Tomita grammars. We show that production rules can be stably extracted from trained RNNs and that in certain cases, the rules outperform the trained RNNs.

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