Sampling-frequency-independent (SFI) Conv-TasNet trained with the MUSDB18-HQ dataset for music source separation.
This model was proposed in our IEEE/ACM Trans. ASLP paper and works well with untrained sampling frequencies by using sampling-frequency-independent convolutional layers with the frequency domain filter design. The latent analog filter is a modulated Gaussian filter. It was trained by Tomohiko Nakamura using the codebase). This model was trained with 32 kHz-sampled data but works well with untrained sampling frequencies (e.g., 8, 16 kHz).
License
MIT
Citation
Please cite the following paper.
@article{KSaito2022IEEEACMTASLP,
author={Saito, Koichi and Nakamura, Tomohiko and Yatabe, Kohei and Saruwatari, Hiroshi},
journal = {IEEE/ACM Transactions on Audio, Speech, and Language Processing},
title = {Sampling-frequency-independent convolutional layer and its application to audio source separation},
year=2022,
month=sep,
volume=30,
pages={2928--2943},
doi={10.1109/TASLP.2022.3203907},
}
Contents
- Four trained models (seed=40,42,44,47)
- Evaluation results (json files obtained with the museval library)