Max-Pooling Based Self-Attention with Transformer for Speaker Verification

2023 7th International Conference on Machine Vision and Information Technology (CMVIT) Pub Date : 2023-03-01 DOI:10.1109/CMVIT57620.2023.00012

Ran Shen, Qingshun She, Gang Sun, Hao Shen, Yiling Li, Weihao Jiang

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Abstract

Transformer has become predominant in many natural language processing (NLP) tasks for its powerful long-term sequence processing abilities. As the central idea of Transformer, self-attention mechanism is originally proposed to model global information for textual sequences. However, discriminating acoustic feature sequences from different speakers mostly rely on local information, which makes Transformer less competitive in the speaker verification task. We alleviate this limitation with a max-pooling based self-attention mechanism to enlarge the receptive field of the attention heads thus to better capture local information. Besides, we also introduce and compare position-based and content-based self-attention mechanism to self-attention and explore different frame-level pooling methods for speaker embeddings. Experiments conducted on AISHEL-1 and LibriSpeech datasets demonstrate that the method we proposed accomplishes the most excellent performance with statistic attentive pooling (SAP) compared with the original Transformer baseline systems.

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基于最大池化的变压器自关注说话人验证

Transformer以其强大的长时间序列处理能力在许多自然语言处理(NLP)任务中占据主导地位。自关注机制作为Transformer的核心思想，最初被提出用于文本序列的全局信息建模。然而，从不同的说话者中区分声学特征序列主要依赖于局部信息，这使得Transformer在说话者验证任务中缺乏竞争力。我们利用基于最大池的自注意机制来扩大注意头的接受野，从而更好地捕获局部信息，从而缓解了这一限制。此外，我们还介绍和比较了基于位置和基于内容的自注意机制，并探索了不同框架级的说话人嵌入池方法。在AISHEL-1和librisspeech数据集上进行的实验表明，与原始Transformer基线系统相比，我们提出的方法在统计关注池(SAP)方面取得了最优异的性能。

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来源期刊

2023 7th International Conference on Machine Vision and Information Technology (CMVIT)

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