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Bibliographic Details
Main Authors: Kang, Taein, Han, Soyul, Choi, Sunmook, Seo, Jaejin, Chung, Sanghyeok, Lee, Seungeun, Oh, Seungsang, Kwak, Il-Youp
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.17127
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author Kang, Taein
Han, Soyul
Choi, Sunmook
Seo, Jaejin
Chung, Sanghyeok
Lee, Seungeun
Oh, Seungsang
Kwak, Il-Youp
author_facet Kang, Taein
Han, Soyul
Choi, Sunmook
Seo, Jaejin
Chung, Sanghyeok
Lee, Seungeun
Oh, Seungsang
Kwak, Il-Youp
contents Conventional spoofing detection systems have heavily relied on the use of handcrafted features derived from speech data. However, a notable shift has recently emerged towards the direct utilization of raw speech waveforms, as demonstrated by methods like SincNet filters. This shift underscores the demand for more sophisticated audio sample features. Moreover, the success of deep learning models, particularly those utilizing large pretrained wav2vec 2.0 as a featurization front-end, highlights the importance of refined feature encoders. In response, this research assessed the representational capability of wav2vec 2.0 as an audio feature extractor, modifying the size of its pretrained Transformer layers through two key adjustments: (1) selecting a subset of layers starting from the leftmost one and (2) fine-tuning a portion of the selected layers from the rightmost one. We complemented this analysis with five spoofing detection back-end models, with a primary focus on AASIST, enabling us to pinpoint the optimal configuration for the selection and fine-tuning process. In contrast to conventional handcrafted features, our investigation identified several spoofing detection systems that achieve state-of-the-art performance in the ASVspoof 2019 LA dataset. This comprehensive exploration offers valuable insights into feature selection strategies, advancing the field of spoofing detection.
format Preprint
id arxiv_https___arxiv_org_abs_2402_17127
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Experimental Study: Enhancing Voice Spoofing Detection Models with wav2vec 2.0
Kang, Taein
Han, Soyul
Choi, Sunmook
Seo, Jaejin
Chung, Sanghyeok
Lee, Seungeun
Oh, Seungsang
Kwak, Il-Youp
Sound
Audio and Speech Processing
00A71
I.2.6
Conventional spoofing detection systems have heavily relied on the use of handcrafted features derived from speech data. However, a notable shift has recently emerged towards the direct utilization of raw speech waveforms, as demonstrated by methods like SincNet filters. This shift underscores the demand for more sophisticated audio sample features. Moreover, the success of deep learning models, particularly those utilizing large pretrained wav2vec 2.0 as a featurization front-end, highlights the importance of refined feature encoders. In response, this research assessed the representational capability of wav2vec 2.0 as an audio feature extractor, modifying the size of its pretrained Transformer layers through two key adjustments: (1) selecting a subset of layers starting from the leftmost one and (2) fine-tuning a portion of the selected layers from the rightmost one. We complemented this analysis with five spoofing detection back-end models, with a primary focus on AASIST, enabling us to pinpoint the optimal configuration for the selection and fine-tuning process. In contrast to conventional handcrafted features, our investigation identified several spoofing detection systems that achieve state-of-the-art performance in the ASVspoof 2019 LA dataset. This comprehensive exploration offers valuable insights into feature selection strategies, advancing the field of spoofing detection.
title Experimental Study: Enhancing Voice Spoofing Detection Models with wav2vec 2.0
topic Sound
Audio and Speech Processing
00A71
I.2.6
url https://arxiv.org/abs/2402.17127