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Main Authors: Yu, Xinyue, Fang, Youqing, Wu, Pingyu, Ye, Guoyang, Zhou, Wenbo, Zhang, Weiming, Xiao, Song
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.12074
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author Yu, Xinyue
Fang, Youqing
Wu, Pingyu
Ye, Guoyang
Zhou, Wenbo
Zhang, Weiming
Xiao, Song
author_facet Yu, Xinyue
Fang, Youqing
Wu, Pingyu
Ye, Guoyang
Zhou, Wenbo
Zhang, Weiming
Xiao, Song
contents Generating expressive and controllable human speech is one of the core goals of generative artificial intelligence, but its progress has long been constrained by two fundamental challenges: the deep entanglement of speech factors and the coarse granularity of existing control mechanisms. To overcome these challenges, we have proposed a novel framework called MF-Speech, which consists of two core components: MF-SpeechEncoder and MF-SpeechGenerator. MF-SpeechEncoder acts as a factor purifier, adopting a multi-objective optimization strategy to decompose the original speech signal into highly pure and independent representations of content, timbre, and emotion. Subsequently, MF-SpeechGenerator functions as a conductor, achieving precise, composable and fine-grained control over these factors through dynamic fusion and Hierarchical Style Adaptive Normalization (HSAN). Experiments demonstrate that in the highly challenging multi-factor compositional speech generation task, MF-Speech significantly outperforms current state-of-the-art methods, achieving a lower word error rate (WER=4.67%), superior style control (SECS=0.5685, Corr=0.68), and the highest subjective evaluation scores(nMOS=3.96, sMOS_emotion=3.86, sMOS_style=3.78). Furthermore, the learned discrete factors exhibit strong transferability, demonstrating their significant potential as a general-purpose speech representation.
format Preprint
id arxiv_https___arxiv_org_abs_2511_12074
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle MF-Speech: Achieving Fine-Grained and Compositional Control in Speech Generation via Factor Disentanglement
Yu, Xinyue
Fang, Youqing
Wu, Pingyu
Ye, Guoyang
Zhou, Wenbo
Zhang, Weiming
Xiao, Song
Sound
Artificial Intelligence
Generating expressive and controllable human speech is one of the core goals of generative artificial intelligence, but its progress has long been constrained by two fundamental challenges: the deep entanglement of speech factors and the coarse granularity of existing control mechanisms. To overcome these challenges, we have proposed a novel framework called MF-Speech, which consists of two core components: MF-SpeechEncoder and MF-SpeechGenerator. MF-SpeechEncoder acts as a factor purifier, adopting a multi-objective optimization strategy to decompose the original speech signal into highly pure and independent representations of content, timbre, and emotion. Subsequently, MF-SpeechGenerator functions as a conductor, achieving precise, composable and fine-grained control over these factors through dynamic fusion and Hierarchical Style Adaptive Normalization (HSAN). Experiments demonstrate that in the highly challenging multi-factor compositional speech generation task, MF-Speech significantly outperforms current state-of-the-art methods, achieving a lower word error rate (WER=4.67%), superior style control (SECS=0.5685, Corr=0.68), and the highest subjective evaluation scores(nMOS=3.96, sMOS_emotion=3.86, sMOS_style=3.78). Furthermore, the learned discrete factors exhibit strong transferability, demonstrating their significant potential as a general-purpose speech representation.
title MF-Speech: Achieving Fine-Grained and Compositional Control in Speech Generation via Factor Disentanglement
topic Sound
Artificial Intelligence
url https://arxiv.org/abs/2511.12074