Multilingual Bidirectional Unsupervised Translation Through Multilingual Finetuning and Back-Translation
This addresses the challenge of machine translation for low-resource languages, though it is incremental as it builds on existing methods like multilingual fine-tuning and back-translation.
The paper tackles the problem of training a single neural machine translation model for bidirectional translation between English and unseen low-resource languages, achieving competitive performance, including a new state-of-the-art BLEU score of 22.9 for English-to-Kazakh.
We propose a two-stage approach for training a single NMT model to translate unseen languages both to and from English. For the first stage, we initialize an encoder-decoder model to pretrained XLM-R and RoBERTa weights, then perform multilingual fine-tuning on parallel data in 40 languages to English. We find this model can generalize to zero-shot translations on unseen languages. For the second stage, we leverage this generalization ability to generate synthetic parallel data from monolingual datasets, then bidirectionally train with successive rounds of back-translation. Our approach, which we EcXTra (English-centric Crosslingual (X) Transfer), is conceptually simple, only using a standard cross-entropy objective throughout. It is also data-driven, sequentially leveraging auxiliary parallel data and monolingual data. We evaluate unsupervised NMT results for 7 low-resource languages, and find that each round of back-translation training further refines bidirectional performance. Our final single EcXTra-trained model achieves competitive translation performance in all translation directions, notably establishing a new state-of-the-art for English-to-Kazakh (22.9 > 10.4 BLEU). Our code is available at https://github.com/manestay/EcXTra .