多领域神经机器翻译的领域特定子网络

Q3 Environmental Science AACL Bioflux Pub Date : 2022-10-18 DOI:10.48550/arXiv.2210.09805

Amr Hendy, M. Abdelghaffar, M. Afify, Ahmed Tawfik

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引用次数: 0

摘要

本文提出了域特定子网(DoSS)。它利用剪枝得到的一组掩码为每个域定义一个子网，并根据域数据对子网参数进行微调。与在每个域上微调整个网络相比，这执行得非常接近，并且大大减少了参数的数量。提出了一种使掩码在每个域上唯一的方法，并证明了这种方法可以大大提高对未知域的泛化能力。在我们的德语到英语机器翻译实验中，所提出的方法比多领域(医学、科技和宗教)数据继续训练的强基线高出1.47 BLEU点。同时继续培训DoSS在新领域(法律)上的表现比多领域(医疗，技术，宗教，法律)基线高出1.52 BLEU点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Domain Specific Sub-network for Multi-Domain Neural Machine Translation

This paper presents Domain-Specific Sub-network (DoSS). It uses a set of masks obtained through pruning to define a sub-network for each domain and finetunes the sub-network parameters on domain data. This performs very closely and drastically reduces the number of parameters compared to finetuning the whole network on each domain. Also a method to make masks unique per domain is proposed and shown to greatly improve the generalization to unseen domains. In our experiments on German to English machine translation the proposed method outperforms the strong baseline of continue training on multi-domain (medical, tech and religion) data by 1.47 BLEU points. Also continue training DoSS on new domain (legal) outperforms the multi-domain (medical, tech, religion, legal) baseline by 1.52 BLEU points.

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来源期刊

AACL Bioflux Environmental Science-Management, Monitoring, Policy and Law

CiteScore

1.40

自引率

0.00%

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