SCORE:自我监督对应关系微调,改进内容表征

Amit Meghanani, Thomas Hain
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引用次数: 1

摘要

人们对基于自我监督学习(SSL)的语音模型进行经济有效的自我监督微调(SSFT)以获得特定任务表示越来越感兴趣。通过对标注数据进行微调,这些特定任务表示法可在各种下游任务中发挥强大的性能。本研究提出了一种名为 "自监督对应"(SCORE)微调的高性价比 SSFT 方法,用于调整 SSL 语音表征以适应与内容相关的任务。该方法采用对应训练策略,旨在从扰动语音和原始语音中学习相似的表征。内容相关任务(ASR)中常用的数据增强技术被用于获取扰动语音。在 SUPERB 基准测试中,SCORE 微调后的 HuBERT 在自动语音识别、音素识别和逐例查询任务方面的表现优于 vanilla HuBERT,在单 GPU 上只需几个小时(小于 5 小时)的微调,相对改进幅度分别为 1.09%、3.58% 和 12.65%。与最近提出的 SSFT 方法 SPIN 相比,SCORE 仅使用了处理后语音的 1/3,其结果具有竞争力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SCORE: Self-supervised Correspondence Fine-tuning for Improved Content Representations
There is a growing interest in cost-effective self-supervised fine-tuning (SSFT) of self-supervised learning (SSL)-based speech models to obtain task-specific representations. These task-specific representations are used for robust performance on various downstream tasks by fine-tuning on the labelled data. This work presents a cost-effective SSFT method named Self-supervised Correspondence (SCORE) fine-tuning to adapt the SSL speech representations for content-related tasks. The proposed method uses a correspondence training strategy, aiming to learn similar representations from perturbed speech and original speech. Commonly used data augmentation techniques for content-related tasks (ASR) are applied to obtain perturbed speech. SCORE fine-tuned HuBERT outperforms the vanilla HuBERT on SUPERB benchmark with only a few hours of fine-tuning (<5 hrs) on a single GPU for automatic speech recognition, phoneme recognition, and query-by-example tasks, with relative improvements of 1.09%, 3.58%, and 12.65%, respectively. SCORE provides competitive results with the recently proposed SSFT method SPIN, using only 1/3 of the processed speech compared to SPIN.
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