Vikas Chandra
2023
Revisiting Sample Size Determination in Natural Language Understanding
Ernie Chang
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Muhammad Hassan Rashid
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Pin-Jie Lin
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Changsheng Zhao
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Vera Demberg
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Yangyang Shi
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Vikas Chandra
Findings of the Association for Computational Linguistics: ACL 2023
Knowing exactly how many data points need to be labeled to achieve a certain model performance is a hugely beneficial step towards reducing the overall budgets for annotation. It pertains to both active learning and traditional data annotation, and is particularly beneficial for low resource scenarios. Nevertheless, it remains a largely under-explored area of research in NLP. We therefore explored various techniques for estimating the training sample size necessary to achieve a targeted performance value. We derived a simple yet effective approach to predict the maximum achievable model performance based on small amount of training samples – which serves as an early indicator during data annotation for data quality and sample size determination. We performed ablation studies on four language understanding tasks, and showed that the proposed approach allows us to forecast model performance within a small margin of mean absolute error (~0.9%) with only 10% data.
Towards Zero-Shot Multilingual Transfer for Code-Switched Responses
Ting-Wei Wu
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Changsheng Zhao
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Ernie Chang
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Yangyang Shi
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Pierce Chuang
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Vikas Chandra
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Biing Juang
Proceedings of the 61st Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers)
Recent task-oriented dialog systems have had great success in building English-based personal assistants, but extending these systems to a global audience is challenging due to the need for annotated data in the target language. An alternative approach is to leverage existing data in a high-resource language to enable cross-lingual transfer in low-resource language models. However, this type of transfer has not been widely explored in natural language response generation. In this research, we investigate the use of state-of-the-art multilingual models such as mBART and T5 to facilitate zero-shot and few-shot transfer of code-switched responses. We propose a new adapter-based framework that allows for efficient transfer by learning task-specific representations and encapsulating source and target language representations. Our framework is able to successfully transfer language knowledge even when the target language corpus is limited. We present both quantitative and qualitative analyses to evaluate the effectiveness of our approach.
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Co-authors
- Ernie Chang 2
- Changsheng Zhao 2
- Yangyang Shi 2
- Muhammad Hassan Rashid 1
- Pin-Jie Lin 1
- show all...