在语音基础模型的掩码预训练中探索预测目标

Li-Wei Chen, Takuya Higuchi, He Bai, Ahmed Hussen Abdelaziz, Alexander Rudnicky, Shinji Watanabe, Tatiana Likhomanenko, Barry-John Theobald, Zakaria Aldeneh
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引用次数: 0

摘要

语音基础模型,如 HuBERT 及其变体,是针对各种下游任务在大量无标记语音上进行预训练的。这些模型使用掩码预测目标,即模型学会从未加掩码的上下文中预测有关掩码输入片段的信息。在这个框架中,预测目标的选择会影响下游任务的性能。例如,编码前音的目标有利于与说话人相关的任务,而编码语音的目标则更适合与内容相关的任务。此外,预测目标编码的细节程度也各不相同;编码细粒度声学细节的目标有利于去噪任务,而编码高层次抽象概念的目标则更适合与内容相关的任务。尽管预测目标非常重要,但对其产生影响的设计选择却尚未得到深入研究。本研究探讨了设计选择及其对下游任务性能的影响。我们的研究结果表明,HuBERT 常用的设计选择可能是次优的。我们提出了创建信息量更大的预测目标的新方法,并通过各种下游任务的改进证明了这些方法的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exploring Prediction Targets in Masked Pre-Training for Speech Foundation Models
Speech foundation models, such as HuBERT and its variants, are pre-trained on large amounts of unlabeled speech for various downstream tasks. These models use a masked prediction objective, where the model learns to predict information about masked input segments from the unmasked context. The choice of prediction targets in this framework can influence performance on downstream tasks. For example, targets that encode prosody are beneficial for speaker-related tasks, while targets that encode phonetics are more suited for content-related tasks. Additionally, prediction targets can vary in the level of detail they encode; targets that encode fine-grained acoustic details are beneficial for denoising tasks, while targets that encode higher-level abstractions are more suited for content-related tasks. Despite the importance of prediction targets, the design choices that affect them have not been thoroughly studied. This work explores the design choices and their impact on downstream task performance. Our results indicate that the commonly used design choices for HuBERT can be suboptimal. We propose novel approaches to create more informative prediction targets and demonstrate their effectiveness through improvements across various downstream tasks.
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