Gustavo Hernández Ábrego scite author profile

We present easy-to-use retrieval focused multilingual sentence embedding models, made available on TensorFlow Hub. The models embed text from 16 languages into a shared semantic space using a multi-task trained dualencoder that learns tied cross-lingual representations via translation bridge tasks (Chidambaram et al., 2018). The models achieve a new state-of-the-art in performance on monolingual and cross-lingual semantic retrieval (SR). Competitive performance is obtained on the related tasks of translation pair bitext retrieval (BR) and retrieval question answering (ReQA). On transfer learning tasks, our multilingual embeddings approach, and in some cases exceed, the performance of English only sentence embeddings.

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Effective Parallel Corpus Mining using Bilingual Sentence Embeddings

Guo¹,

Shen²,

Yang³

et al. 2018

117

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This paper presents an effective approach for parallel corpus mining using bilingual sentence embeddings. Our embedding models are trained to produce similar representations exclusively for bilingual sentence pairs that are translations of each other. This is achieved using a novel training method that introduces hard negatives consisting of sentences that are not translations but that have some degree of semantic similarity. The quality of the resulting embeddings are evaluated on parallel corpus reconstruction and by assessing machine translation systems trained on gold vs. mined sentence pairs. We find that the sentence embeddings can be used to reconstruct the United Nations Parallel Corpus (Ziemski et al., 2016) at the sentence level with a precision of 48.9% for en-fr and 54.9% for enes. When adapted to document level matching, we achieve a parallel document matching accuracy that is comparable to the significantly more computationally intensive approach of Uszkoreit et al. (2010). Using reconstructed parallel data, we are able to train NMT models that perform nearly as well as models trained on the original data (within 1-2 BLEU).

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Improving Multilingual Sentence Embedding using Bi-directional Dual Encoder with Additive Margin Softmax

Yang

Ábrego

Yuan

et al. 2019

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In this paper, we present an approach to learn multilingual sentence embeddings using a bi-directional dual-encoder with additive margin softmax. The embeddings are able to achieve state-of-the-art results on the United Nations (UN) parallel corpus retrieval task. In all the languages tested, the system achieves P@1 of 86% or higher. We use pairs retrieved by our approach to train NMT models that achieve similar performance to models trained on gold pairs. We explore simple document-level embeddings constructed by averaging our sentence embeddings. On the UN document-level retrieval task, document embeddings achieve around 97% on P@1 for all experimented language pairs. Lastly, we evaluate the proposed model on the BUCC mining task. The learned embeddings with raw cosine similarity scores achieve competitive results compared to current state-of-the-art models, and with a second-stage scorer we achieve a new state-of-the-art level on this task.

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Multilingual Universal Sentence Encoder for Semantic Retrieval

Yang¹,

Cer²,

Amin³

et al. 2019

Preprint

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Sentence-T5: Scalable Sentence Encoders from Pre-trained Text-to-Text Models

Ni¹,

Ábrego²,

Constant³

et al. 2021

Preprint

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We provide the first exploration of text-to-text transformers (T5) sentence embeddings. Sentence embeddings are broadly useful for language processing tasks. While T5 achieves impressive performance on language tasks cast as sequence-to-sequence mapping problems, it is unclear how to produce sentence embeddings from encoder-decoder models. We investigate three methods for extracting T5 sentence embeddings: two utilize only the T5 encoder and one uses the full T5 encoder-decoder model. Our encoder-only models outperforms BERTbased sentence embeddings on both transfer tasks and semantic textual similarity (STS). Our encoder-decoder method achieves further improvement on STS. Scaling up T5 from millions to billions of parameters is found to produce consistent improvements on downstream tasks. Finally, we introduce a two-stage contrastive learning approach that achieves a new state-of-art on STS using sentence embeddings, outperforming both Sentence BERT (Reimers and Gurevych, 2019) and SimCSE (Gao et al., 2021).

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