Mixing-Specific Data Augmentation Techniques for Improved Blind Violin/Piano Source Separation
This work addresses data scarcity in music source separation for MIR and signal processing researchers, but it is incremental as it builds on existing augmentation methods.
The paper tackled the problem of limited multi-track data for training blind music source separation models by developing mixing-specific data augmentation techniques that incorporate modern production settings, track relationships, and silence factors. The result showed improved performance for violin/piano separation, particularly with small training data, as measured by SDR, SIR, and SAR metrics.
Blind music source separation has been a popular and active subject of research in both the music information retrieval and signal processing communities. To counter the lack of available multi-track data for supervised model training, a data augmentation method that creates artificial mixtures by combining tracks from different songs has been shown useful in recent works. Following this light, we examine further in this paper extended data augmentation methods that consider more sophisticated mixing settings employed in the modern music production routine, the relationship between the tracks to be combined, and factors of silence. As a case study, we consider the separation of violin and piano tracks in a violin piano ensemble, evaluating the performance in terms of common metrics, namely SDR, SIR, and SAR. In addition to examining the effectiveness of these new data augmentation methods, we also study the influence of the amount of training data. Our evaluation shows that the proposed mixing-specific data augmentation methods can help improve the performance of a deep learning-based model for source separation, especially in the case of small training data.