Open AccessUnsupervised Quality Estimation for Neural Machine Translation
Author(s) -
Marina Fomicheva,
Shuo Sun,
Lisa Yankovskaya,
Frédéric Blain,
Francisco Guzmán,
Mark Fishel,
Νικόλαος Αλέτρας,
Vishrav Chaudhary,
Lucia Specia
Publication year - 2020
Publication title -
transactions of the association for computational linguistics
Language(s) - English
Resource type - Journals
ISSN - 2307-387X
DOI - 10.1162/tacl_a_00330
Subject(s) - computer science , machine translation , black box , quality (philosophy) , component (thermodynamics) , machine learning , artificial intelligence , computation , translation (biology) , data mining , algorithm , philosophy , biochemistry , physics , chemistry , epistemology , messenger rna , gene , thermodynamics
Quality Estimation (QE) is an important component in making Machine Translation (MT) useful in real-world applications, as it is aimed to inform the user on the quality of the MT output at test time. Existing approaches require large amounts of expert annotated data, computation, and time for training. As an alternative, we devise an unsupervised approach to QE where no training or access to additional resources besides the MT system itself is required. Different from most of the current work that treats the MT system as a black box, we explore useful information that can be extracted from the MT system as a by-product of translation. By utilizing methods for uncertainty quantification, we achieve very good correlation with human judgments of quality, rivaling state-of-the-art supervised QE models. To evaluate our approach we collect the first dataset that enables work on both black-box and glass-box approaches to QE.
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