Fang, Qingkai scite author profile

STEMM: Self-learning with Speech-text Manifold Mixup for Speech Translation

Qingkai¹,

Ye²,

Li³

et al. 2022

View full text Add to dashboard Cite

How to learn a better speech representation for end-to-end speech-to-text translation (ST) with limited labeled data? Existing techniques often attempt to transfer powerful machine translation (MT) capabilities to ST, but neglect the representation discrepancy across modalities. In this paper, we propose the Speech-TExt Manifold Mixup (STEMM) method to calibrate such discrepancy. Specifically, we mix up the representation sequences of different modalities, and take both unimodal speech sequences and multimodal mixed sequences as input to the translation model in parallel, and regularize their output predictions with a selflearning framework. Experiments on MuST-C speech translation benchmark and further analysis show that our method effectively alleviates the cross-modal representation discrepancy, and achieves significant improvements over a strong baseline on eight translation directions.

show abstract

STEMM: Self-learning with Speech-text Manifold Mixup for Speech Translation

Qingkai¹,

Ye²,

Li³

et al. 2022

Preprint

View full text Add to dashboard Cite

How to learn a better speech representation for end-to-end speech-to-text translation (ST) with limited labeled data? Existing techniques often attempt to transfer powerful machine translation (MT) capabilities to ST, but neglect the representation discrepancy across modalities. In this paper, we propose the Speech-TExt Manifold Mixup (STEMM) method to calibrate such discrepancy. Specifically, we mix up the representation sequences of different modalities, and take both unimodal speech sequences and multimodal mixed sequences as input to the translation model in parallel, and regularize their output predictions with a selflearning framework. Experiments on MuST-C speech translation benchmark and further analysis show that our method effectively alleviates the cross-modal representation discrepancy, and achieves significant improvements over a strong baseline on eight translation directions.

show abstract

CMOT: Cross-modal Mixup via Optimal Transport for Speech Translation

Zhou¹,

Qingkai²,

Feng³

2023

View full text Add to dashboard Cite

Neural Machine Translation with Phrase-Level Universal Visual Representations

Qingkai¹,

Feng²

2022

Preprint

View full text Add to dashboard Cite

Multimodal machine translation (MMT) aims to improve neural machine translation (NMT) with additional visual information, but most existing MMT methods require paired input of source sentence and image, which makes them suffer from shortage of sentence-image pairs. In this paper, we propose a phrase-level retrieval-based method for MMT to get visual information for the source input from existing sentence-image data sets so that MMT can break the limitation of paired sentence-image input. Our method performs retrieval at the phrase level and hence learns visual information from pairs of source phrase and grounded region, which can mitigate data sparsity. Furthermore, our method employs the conditional variational auto-encoder to learn visual representations which can filter redundant visual information and only retain visual information related to the phrase. Experiments show that the proposed method significantly outperforms strong baselines on multiple MMT datasets, especially when the textual context is limited.

show abstract

Neural Machine Translation with Phrase-Level Universal Visual Representations

Qingkai¹,

Feng²

2022

View full text Add to dashboard Cite

Multimodal machine translation (MMT) aims to improve neural machine translation (NMT) with additional visual information, but most existing MMT methods require paired input of source sentence and image, which makes them suffer from shortage of sentence-image pairs. In this paper, we propose a phrase-level retrieval-based method for MMT to get visual information for the source input from existing sentence-image data sets so that MMT can break the limitation of paired sentence-image input. Our method performs retrieval at the phrase level and hence learns visual information from pairs of source phrase and grounded region, which can mitigate data sparsity. Furthermore, our method employs the conditional variational auto-encoder to learn visual representations which can filter redundant visual information and only retain visual information related to the phrase. Experiments show that the proposed method significantly outperforms strong baselines on multiple MMT datasets, especially when the textual context is limited.

show abstract

Fang, Qingkai

STEMM: Self-learning with Speech-text Manifold Mixup for Speech Translation

STEMM: Self-learning with Speech-text Manifold Mixup for Speech Translation

CMOT: Cross-modal Mixup via Optimal Transport for Speech Translation

Neural Machine Translation with Phrase-Level Universal Visual Representations

Neural Machine Translation with Phrase-Level Universal Visual Representations

Contact Info

Product

Resources

About