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Main Authors: Li, Andong, Lei, Tong, Sun, Zhihang, Chen, Rilin, Li, Xiaodong, Yu, Dong, Zheng, Chengshi
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.08574
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author Li, Andong
Lei, Tong
Sun, Zhihang
Chen, Rilin
Li, Xiaodong
Yu, Dong
Zheng, Chengshi
author_facet Li, Andong
Lei, Tong
Sun, Zhihang
Chen, Rilin
Li, Xiaodong
Yu, Dong
Zheng, Chengshi
contents Although deep neural networks have facilitated significant progress of neural vocoders in recent years, they usually suffer from intrinsic challenges like opaque modeling, inflexible retraining under different input configurations, and parameter-performance trade-off. These inherent hurdles can heavily impede the development of this field. To resolve these problems, in this paper, we propose a novel neural vocoder in the time-frequency (T-F) domain. Specifically, we bridge the connection between the classical range-null decomposition (RND) theory and the vocoder task, where the reconstruction of the target spectrogram is formulated into the superimposition between range-space and null-space. The former aims to project the representation in the original mel-domain into the target linear-scale domain, and the latter can be instantiated via neural networks to further infill the spectral details. To fully leverage the spectrum prior, an elaborate dual-path framework is devised, where the spectrum is hierarchically encoded and decoded, and the cross- and narrow-band modules are leveraged for effectively modeling along sub-band and time dimensions. To enable inference under various configurations, we propose a simple yet effective strategy, which transforms the multi-condition adaption in the inference stage into the data augmentation in the training stage. Comprehensive experiments are conducted on various benchmarks. Quantitative and qualitative results show that while enjoying lightweight network structure and scalable inference paradigm, the proposed framework achieves state-ofthe-art performance among existing advanced methods. Code is available at https://github.com/Andong-Li-speech/RNDVoC.
format Preprint
id arxiv_https___arxiv_org_abs_2603_08574
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Scalable Neural Vocoder from Range-Null Space Decomposition
Li, Andong
Lei, Tong
Sun, Zhihang
Chen, Rilin
Li, Xiaodong
Yu, Dong
Zheng, Chengshi
Sound
Although deep neural networks have facilitated significant progress of neural vocoders in recent years, they usually suffer from intrinsic challenges like opaque modeling, inflexible retraining under different input configurations, and parameter-performance trade-off. These inherent hurdles can heavily impede the development of this field. To resolve these problems, in this paper, we propose a novel neural vocoder in the time-frequency (T-F) domain. Specifically, we bridge the connection between the classical range-null decomposition (RND) theory and the vocoder task, where the reconstruction of the target spectrogram is formulated into the superimposition between range-space and null-space. The former aims to project the representation in the original mel-domain into the target linear-scale domain, and the latter can be instantiated via neural networks to further infill the spectral details. To fully leverage the spectrum prior, an elaborate dual-path framework is devised, where the spectrum is hierarchically encoded and decoded, and the cross- and narrow-band modules are leveraged for effectively modeling along sub-band and time dimensions. To enable inference under various configurations, we propose a simple yet effective strategy, which transforms the multi-condition adaption in the inference stage into the data augmentation in the training stage. Comprehensive experiments are conducted on various benchmarks. Quantitative and qualitative results show that while enjoying lightweight network structure and scalable inference paradigm, the proposed framework achieves state-ofthe-art performance among existing advanced methods. Code is available at https://github.com/Andong-Li-speech/RNDVoC.
title Scalable Neural Vocoder from Range-Null Space Decomposition
topic Sound
url https://arxiv.org/abs/2603.08574