Differentiable Time-Varying Linear Prediction in the Context of End-to-End Analysis-by-Synthesis

Add code
Jun 07, 2024
Chin-Yun Yu, György Fazekas
Figure 1 for Differentiable Time-Varying Linear Prediction in the Context of End-to-End Analysis-by-Synthesis
Figure 2 for Differentiable Time-Varying Linear Prediction in the Context of End-to-End Analysis-by-Synthesis
Figure 3 for Differentiable Time-Varying Linear Prediction in the Context of End-to-End Analysis-by-Synthesis
Figure 4 for Differentiable Time-Varying Linear Prediction in the Context of End-to-End Analysis-by-Synthesis

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon

Training the linear prediction (LP) operator end-to-end for audio synthesis in modern deep learning frameworks is slow due to its recursive formulation. In addition, frame-wise approximation as an acceleration method cannot generalise well to test time conditions where the LP is computed sample-wise. Efficient differentiable sample-wise LP for end-to-end training is the key to removing this barrier. We generalise the efficient time-invariant LP implementation from the GOLF vocoder to time-varying cases. Combining this with the classic source-filter model, we show that the improved GOLF learns LP coefficients and reconstructs the voice better than its frame-wise counterparts. Moreover, in our listening test, synthesised outputs from GOLF scored higher in quality ratings than the state-of-the-art differentiable WORLD vocoder.

* Accepted at Interspeech 2024  
View paper onarxiv icon

Share this with someone who'll enjoy it:

Twitter IconFacebook IconLinkedin IconWhatsapp IconMessenger Icon