%0 Journal Article %1 10.1162/tacl_a_00585 %A Liu, Fangyu %A Liu, Qianchu %A Bannur, Shruthi %A Pérez-García, Fernando %A Usuyama, Naoto %A Zhang, Sheng %A Naumann, Tristan %A Nori, Aditya %A Poon, Hoifung %A Alvarez-Valle, Javier %A Oktay, Ozan %A Hyland, Stephanie L. %D 2023 %J Transactions of the Association for Computational Linguistics %K low-resource-domains multitask nlp transformer %P 1097-1113 %R 10.1162/tacl_a_00585 %T Compositional Zero-Shot Domain Transfer with Text-to-Text Models %U https://doi.org/10.1162/tacl_a_00585 %V 11 %X Label scarcity is a bottleneck for improving task performance in specialized domains. We propose a novel compositional transfer learning framework (DoT51) for zero-shot domain transfer. Without access to in-domain labels, DoT5 jointly learns domain knowledge (from masked language modelling of unlabelled in-domain free text) and task knowledge (from task training on more readily available general-domain data) in a multi-task manner. To improve the transferability of task training, we design a strategy named NLGU: We simultaneously train natural language generation (NLG) for in-domain label-to-data generation, which enables data augmentation for self-finetuning and natural language understanding (NLU) for label prediction. We evaluate DoT5 on the biomedical domain and the resource-lean subdomain of radiology, focusing on natural language inference, text summarization, and embedding learning. DoT5 demonstrates the effectiveness of compositional transfer learning through multi-task learning. In particular, DoT5 outperforms the current state-of-the-art in zero-shot transfer by over 7 absolute points in accuracy on RadNLI. We validate DoT5 with ablations and a case study demonstrating its ability to solve challenging NLI examples requiring in-domain expertise.

@article{10.1162/tacl_a_00585, abstract = {{Label scarcity is a bottleneck for improving task performance in specialized domains. We propose a novel compositional transfer learning framework (DoT51) for zero-shot domain transfer. Without access to in-domain labels, DoT5 jointly learns domain knowledge (from masked language modelling of unlabelled in-domain free text) and task knowledge (from task training on more readily available general-domain data) in a multi-task manner. To improve the transferability of task training, we design a strategy named NLGU: We simultaneously train natural language generation (NLG) for in-domain label-to-data generation, which enables data augmentation for self-finetuning and natural language understanding (NLU) for label prediction. We evaluate DoT5 on the biomedical domain and the resource-lean subdomain of radiology, focusing on natural language inference, text summarization, and embedding learning. DoT5 demonstrates the effectiveness of compositional transfer learning through multi-task learning. In particular, DoT5 outperforms the current state-of-the-art in zero-shot transfer by over 7 absolute points in accuracy on RadNLI. We validate DoT5 with ablations and a case study demonstrating its ability to solve challenging NLI examples requiring in-domain expertise.}}, added-at = {2023-11-30T16:07:57.000+0100}, author = {Liu, Fangyu and Liu, Qianchu and Bannur, Shruthi and Pérez-García, Fernando and Usuyama, Naoto and Zhang, Sheng and Naumann, Tristan and Nori, Aditya and Poon, Hoifung and Alvarez-Valle, Javier and Oktay, Ozan and Hyland, Stephanie L.}, biburl = {https://www.bibsonomy.org/bibtex/2984da91b95f5e1943f867496fa4f203d/antonvlasjuk}, doi = {10.1162/tacl_a_00585}, eprint = {https://direct.mit.edu/tacl/article-pdf/doi/10.1162/tacl\_a\_00585/2157384/tacl\_a\_00585.pdf}, interhash = {740497ea785bbf269e45b133f390f73d}, intrahash = {984da91b95f5e1943f867496fa4f203d}, issn = {2307-387X}, journal = {Transactions of the Association for Computational Linguistics}, keywords = {low-resource-domains multitask nlp transformer}, month = {09}, pages = {1097-1113}, timestamp = {2023-11-30T16:09:21.000+0100}, title = {{Compositional Zero-Shot Domain Transfer with Text-to-Text Models}}, url = {https://doi.org/10.1162/tacl_a_00585}, volume = 11, year = 2023 }