Yaoyiran Li scite author profile

Yaoyiran Li

5Publications

60Citation Statements Received

45Citation Statements Given

How they've been cited

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129

Affiliations

University of Electronic Science and Technology of China

Publications

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Improving Word Translation via Two-Stage Contrastive Learning

Li¹,

Liu²,

Collier³

et al. 2022

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Word translation or bilingual lexicon induction (BLI) is a key cross-lingual task, aiming to bridge the lexical gap between different languages. In this work, we propose a robust and effective two-stage contrastive learning framework for the BLI task. At Stage C1, we propose to refine standard cross-lingual linear maps between static word embeddings (WEs) via a contrastive learning objective; we also show how to integrate it into the self-learning procedure for even more refined cross-lingual maps. In Stage C2, we conduct BLI-oriented contrastive fine-tuning of mBERT, unlocking its word translation capability. We also show that static WEs induced from the 'C2-tuned' mBERT complement static WEs from Stage C1. Comprehensive experiments on standard BLI datasets for diverse languages and different experimental setups demonstrate substantial gains achieved by our framework. While the BLI method from Stage C1 already yields substantial gains over all state-of-the-art BLI methods in our comparison, even stronger improvements are met with the full two-stage framework: e.g., we report gains for 112/112 BLI setups, spanning 28 language pairs.

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Emergent Communication Pretraining for Few-Shot Machine Translation

Li¹,

Ponti

Vulić

et al. 2020

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While state-of-the-art models that rely upon massively multilingual pretrained encoders achieve sample efficiency in downstream applications, they still require abundant amounts of unlabelled text. Nevertheless, most of the world's languages lack such resources. Hence, we investigate a more radical form of unsupervised knowledge transfer in the absence of linguistic data. In particular, for the first time we pretrain neural networks via emergent communication from referential games. Our key assumption is that grounding communication on images-as a crude approximation of real-world environments-inductively biases the model towards learning natural languages. On the one hand, we show that this substantially benefits machine translation in few-shot settings. On the other hand, this also provides an extrinsic evaluation protocol to probe the properties of emergent languages ex vitro. Intuitively, the closer they are to natural languages, the higher the gains from pretraining on them should be. For instance, in this work we measure the influence of communication success and maximum sequence length on downstream performances. Finally, we introduce a customised adapter layer and annealing strategies for the regulariser of maximum-a-posteriori inference during fine-tuning. These turn out to be crucial to facilitate knowledge transfer and prevent catastrophic forgetting. Compared to a recurrent baseline, our method yields gains of 59.0%∼147.6% in BLEU score with only 500 NMT training instances and 65.1%∼196.7% with 1, 000 NMT training instances across four language pairs. These proofof-concept results reveal the potential of emergent communication pretraining for both natural language processing tasks in resource-poor settings and extrinsic evaluation of artificial languages.

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Text-Based Detection and Understanding of Changes in Mental Health

Li¹,

Mihalcea²,

Wilson³

2018

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Hybrid discrete differential evolution algorithm for biobjective cyclic hoist scheduling with reentrance

Yan

Wang

Che

et al. 2016

Computers & Operations Research

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Leader-following control of multi-motor systems based on the consistency theory under the network environment

Chen

et al. 2016

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Yaoyiran Li

Improving Word Translation via Two-Stage Contrastive Learning

Emergent Communication Pretraining for Few-Shot Machine Translation

Text-Based Detection and Understanding of Changes in Mental Health

Hybrid discrete differential evolution algorithm for biobjective cyclic hoist scheduling with reentrance

Leader-following control of multi-motor systems based on the consistency theory under the network environment

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