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arxiv: 2508.14709 · v1 · pith:NKFCYXNX · submitted 2025-08-20 · eess.AS · cs.SD

Improving Resource-Efficient Speech Enhancement via Neural Differentiable DSP Vocoder Refinement

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classification eess.AS cs.SD
keywords speechvocodercomputationalddspdifferentiableend-to-endenhancedenhancement
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Deploying speech enhancement (SE) systems in wearable devices, such as smart glasses, is challenging due to the limited computational resources on the device. Although deep learning methods have achieved high-quality results, their computational cost limits their feasibility on embedded platforms. This work presents an efficient end-to-end SE framework that leverages a Differentiable Digital Signal Processing (DDSP) vocoder for high-quality speech synthesis. First, a compact neural network predicts enhanced acoustic features from noisy speech: spectral envelope, fundamental frequency (F0), and periodicity. These features are fed into the DDSP vocoder to synthesize the enhanced waveform. The system is trained end-to-end with STFT and adversarial losses, enabling direct optimization at the feature and waveform levels. Experimental results show that our method improves intelligibility and quality by 4% (STOI) and 19% (DNSMOS) over strong baselines without significantly increasing computation, making it well-suited for real-time applications.

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