Spoofing-Aware Speaker Verification Robust Against Domain and Channel Mismatches

Chang Zeng, Xiaoxiao Miao, Xin Wang, Erica Cooper, Junichi Yamagishi
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Abstract

In real-world applications, it is challenging to build a speaker verification system that is simultaneously robust against common threats, including spoofing attacks, channel mismatch, and domain mismatch. Traditional automatic speaker verification (ASV) systems often tackle these issues separately, leading to suboptimal performance when faced with simultaneous challenges. In this paper, we propose an integrated framework that incorporates pair-wise learning and spoofing attack simulation into the meta-learning paradigm to enhance robustness against these multifaceted threats. This novel approach employs an asymmetric dual-path model and a multi-task learning strategy to handle ASV, anti-spoofing, and spoofing-aware ASV tasks concurrently. A new testing dataset, CNComplex, is introduced to evaluate system performance under these combined threats. Experimental results demonstrate that our integrated model significantly improves performance over traditional ASV systems across various scenarios, showcasing its potential for real-world deployment. Additionally, the proposed framework's ability to generalize across different conditions highlights its robustness and reliability, making it a promising solution for practical ASV applications.
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识别欺骗的扬声器验证可抵御领域和信道错配
在现实世界的应用中,建立一个能同时抵御常见威胁(包括欺骗攻击、信道错配和域错配)的说话人验证系统是一项挑战。传统的自动说话人验证(ASV)系统通常单独处理这些问题,导致在同时面临挑战时无法达到最佳性能。在本文中,我们提出了一种集成框架,它将成对学习和欺骗攻击模拟纳入元学习范式,以增强对这些多方面威胁的防御能力。这种新方法采用了非对称双路径模型和多任务学习策略,可同时处理ASV、反欺骗和欺骗感知ASV任务。我们引入了一个新的测试数据集 CNComplex,用于评估系统在这些综合威胁下的性能。实验结果表明,与传统 ASV 系统相比,我们的集成模型在各种情况下都能显著提高性能,展示了其在现实世界中部署的潜力。此外,所提出的框架在不同条件下的泛化能力凸显了其鲁棒性和可靠性,使其成为ASV实际应用中一个前景广阔的解决方案。
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