基于统计意义的与持续时间无关的鲁棒噪声扬声器验证

International Journal of Mathematical, Engineering and Management Sciences Pub Date : 2024-02-01 DOI:10.33889/ijmems.2024.9.1.008

Asmita Nirmal, Deepak Jayaswal, P. Kachare

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引用次数: 0

摘要

扬声器验证系统使用不同的语音特征对单个扬声器进行建模，以提高其鲁棒性。然而，冗余特征会降低系统的性能。本文提出了统计意义上与持续时间无关的梅尔频率倒频谱系数（SSDI-MFCC）特征和极梯度提升分类器，以提高说话人模型的噪声稳健性。八种统计描述符用于生成与信号持续时间无关的特征，并通过 t 检验获得具有统计意义的特征子集。评估中使用了重新开发的 Librispeech 数据库，其中添加了 AURORA 数据库中的噪声，以模拟真实世界的测试条件，用于验证说话者。SSDI-MFCC 与主成分分析法（PCA）和遗传算法（GA）进行了比较。比较结果表明，在干净和有噪声的条件下，SSDI-MFCC 比 GA-MFCC 和 PCA-MFCC 的平均相等错误率分别提高了 4.93 % 和 3.48 %。与完整的特征集相比，使用 SSDI-MFCC 的验证时间大大缩短。

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Statistically Significant Duration-Independent-based Noise-Robust Speaker Verification

A speaker verification system models individual speakers using different speech features to improve their robustness. However, redundant features degrade the system's performance. This paper presents Statistically Significant Duration-Independent Mel frequency Cepstral Coefficients (SSDI-MFCC) features with the Extreme Gradient Boost classifier for improving the noise-robustness of speaker models. Eight statistical descriptors are used to generate signal duration-independent features, and a statistically significant feature subset is obtained using a t-test. A redeveloped Librispeech database by adding noises from the AURORA database to simulate real-world test conditions for speaker verification is used for evaluation. The SSDI-MFCC is compared with Principal Component Analysis (PCA) and Genetic Algorithm (GA). The comparative results showed average equal error rate improvements by 4.93 % and 3.48 % with the SSDI-MFCC than GA-MFCC and PCA-MFCC in clean and noisy conditions, respectively. A significant reduction in verification time is observed using SSDI-MFCC than the complete feature set.

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International Journal of Mathematical, Engineering and Management Sciences

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