Please check whether this paper is about 'Voice Conversion' or not.
article info.
title: Application of ASV for Voice Identification after VC and Duration Predictor Improvement in TTS Models
summary: One of the most crucial components in the field of biometric security is the
automatic speaker verification system, which is based on the speaker's voice.
It is possible to utilise ASVs in isolation or in conjunction with other AI
models. In the contemporary era, the quality and quantity of neural networks
are increasing exponentially. Concurrently, there is a growing number of
systems that aim to manipulate data through the use of voice conversion and
text-to-speech models. The field of voice biometrics forgery is aided by a
number of challenges, including SSTC, ASVSpoof, and SingFake.
This paper presents a system for automatic speaker verification. The primary
objective of our model is the extraction of embeddings from the target
speaker's audio in order to obtain information about important characteristics
of his voice, such as pitch, energy, and the duration of phonemes. This
information is used in our multivoice TTS pipeline, which is currently under
development. However, this model was employed within the SSTC challenge to
verify users whose voice had undergone voice conversion, where it demonstrated
an EER of 20.669.
Please check whether this paper is about 'Voice Conversion' or not.
article info.
title: Application of ASV for Voice Identification after VC and Duration Predictor Improvement in TTS Models
summary: One of the most crucial components in the field of biometric security is the automatic speaker verification system, which is based on the speaker's voice. It is possible to utilise ASVs in isolation or in conjunction with other AI models. In the contemporary era, the quality and quantity of neural networks are increasing exponentially. Concurrently, there is a growing number of systems that aim to manipulate data through the use of voice conversion and text-to-speech models. The field of voice biometrics forgery is aided by a number of challenges, including SSTC, ASVSpoof, and SingFake. This paper presents a system for automatic speaker verification. The primary objective of our model is the extraction of embeddings from the target speaker's audio in order to obtain information about important characteristics of his voice, such as pitch, energy, and the duration of phonemes. This information is used in our multivoice TTS pipeline, which is currently under development. However, this model was employed within the SSTC challenge to verify users whose voice had undergone voice conversion, where it demonstrated an EER of 20.669.
id: http://arxiv.org/abs/2406.19243v1
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