Andre Tättar scite author profile

We propose the use of pre-trained embeddings as features of a regression model for sentencelevel quality estimation of machine translation. In our work we combine freely available BERT and LASER multilingual embeddings to train a neural-based regression model. In the second proposed method we use as an input features not only pre-trained embeddings, but also log probability of any machine translation (MT) system. Both methods are applied to several language pairs and are evaluated both as a classical quality estimation system (predicting the HTER score) as well as an MT metric (predicting human judgements of translation quality).

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Phrase-based Unsupervised Machine Translation with Compositional Phrase Embeddings

Del¹,

Tättar²,

Fishel³

2018

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This paper describes the University of Tartu's submission to the unsupervised machine translation track of WMT18 news translation shared task. We build several baseline translation systems for both directions of the English-Estonian language pair using monolingual data only; the systems belong to the phrase-based unsupervised machine translation paradigm where we experimented with phrase lengths of up to 3. As a main contribution, we performed a set of standalone experiments with compositional phrase embeddings as a substitute for phrases as individual vocabulary entries. Results show that reasonable n-gram vectors can be obtained by simply summing up individual word vectors which retains or improves the performance of phrase-based unsupervised machine tranlation systems while avoiding limitations of atomic phrase vectors.

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Quality Estimation with Force-Decoded Attention and Cross-lingual Embeddings

Yankovskaya¹,

Tättar²,

Fishel³

2018

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This paper describes the submissions of the team from the University of Tartu for the sentence-level Quality Estimation shared task of WMT18. The proposed models use features based on attention weights of a neural machine translation system and cross-lingual phrase embeddings as input features of a regression model. Two of the proposed models require only a neural machine translation system with an attention mechanism with no additional resources. Results show that combining neural networks and baseline features leads to significant improvements over the baseline features alone.

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A Study in Improving BLEU Reference Coverage with Diverse Automatic Paraphrasing

Bawden¹,

Zhang²,

Yankovskaya

et al. 2020

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We investigate a long-perceived shortcoming in the typical use of BLEU: its reliance on a single reference. Using modern neural paraphrasing techniques, we study whether automatically generating additional diverse references can provide better coverage of the space of valid translations and thereby improve its correlation with human judgments. Our experiments on the into-English language directions of the WMT19 metrics task (at both the system and sentence level) show that using paraphrased references does generally improve BLEU, and when it does, the more diverse the better. However, we also show that better results could be achieved if those paraphrases were to specifically target the parts of the space most relevant to the MT outputs being evaluated. Moreover, the gains remain slight even when using human paraphrases elicited to maximize diversity, suggesting inherent limitations to BLEU's capacity to correctly exploit multiple references. Surprisingly, we also find that adequacy appears to be less important, as shown by the high results of a strong sampling approach, which even beats human paraphrases when used with sentencelevel BLEU. 1

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Andre Tättar

bleu2vec: the Painfully Familiar Metric on Continuous Vector Space Steroids

Quality Estimation and Translation Metrics via Pre-trained Word and Sentence Embeddings

Phrase-based Unsupervised Machine Translation with Compositional Phrase Embeddings

Quality Estimation with Force-Decoded Attention and Cross-lingual Embeddings

A Study in Improving BLEU Reference Coverage with Diverse Automatic Paraphrasing

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