G-Augment: Searching for the Meta-Structure of Data Augmentation Policies for ASR

2022 IEEE Spoken Language Technology Workshop (SLT) Pub Date : 2022-10-19 DOI:10.1109/SLT54892.2023.10022748

Gary Wang, Ekin D.Cubuk, A. Rosenberg, Shuyang Cheng, Ron J. Weiss, B. Ramabhadran, P. Moreno, Quoc V. Le, Daniel S. Park

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Abstract

Data augmentation is a ubiquitous technique used to provide robustness to automatic speech recognition (ASR) training. However, even as so much of the ASR training process has become automated and more “end-to-end,” the data augmentation policy (what augmentation functions to use, and how to apply them) remains hand-crafted. We present G(raph)-Augment, a technique to define the augmentation space as directed acyclic graphs (DAGs) and search over this space to optimize the augmentation policy itself. We show that given the same computational budget, policies produced by G-Augment are able to perform better than SpecAugment policies obtained by random search on fine-tuning tasks on CHiME-6 and AMI. G-Augment is also able to establish a new state-of-the-art ASR performance on the CHiME-6 evaluation set (30.7% WER). We further demonstrate that G- Augment policies show better transfer properties across warm-start to cold-start training and model size compared to random-searched SpecAugment policies.

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G-Augment:面向ASR的数据增强策略元结构的搜索

数据增强是一种普遍存在的技术，用于为自动语音识别(ASR)训练提供鲁棒性。然而，即使如此多的ASR训练过程已经变得自动化并且更加“端到端”，数据增强策略(使用哪些增强功能，以及如何应用它们)仍然是手工制作的。我们提出了G(graph)-Augment，一种将增广空间定义为有向无环图(dag)并在该空间上搜索以优化增广策略本身的技术。我们表明，在相同的计算预算下，G-Augment产生的策略能够比在CHiME-6和AMI上通过随机搜索获得的SpecAugment策略执行得更好。G-Augment还能够在CHiME-6评估集上建立新的最先进的ASR性能(30.7%的WER)。我们进一步证明，与随机搜索的SpecAugment策略相比，G- Augment策略在热启动到冷启动训练和模型大小方面表现出更好的迁移特性。

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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2022 IEEE Spoken Language Technology Workshop (SLT)

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