English

Pitch-Informed Instrument Assignment Using a Deep Convolutional Network with Multiple Kernel Shapes

Sound 2021-07-30 v1 Information Retrieval Machine Learning Neural and Evolutionary Computing Audio and Speech Processing

Abstract

This paper proposes a deep convolutional neural network for performing note-level instrument assignment. Given a polyphonic multi-instrumental music signal along with its ground truth or predicted notes, the objective is to assign an instrumental source for each note. This problem is addressed as a pitch-informed classification task where each note is analysed individually. We also propose to utilise several kernel shapes in the convolutional layers in order to facilitate learning of efficient timbre-discriminative feature maps. Experiments on the MusicNet dataset using 7 instrument classes show that our approach is able to achieve an average F-score of 0.904 when the original multi-pitch annotations are used as the pitch information for the system, and that it also excels if the note information is provided using third-party multi-pitch estimation algorithms. We also include ablation studies investigating the effects of the use of multiple kernel shapes and comparing different input representations for the audio and the note-related information.

Keywords

Cite

@article{arxiv.2107.13617,
  title  = {Pitch-Informed Instrument Assignment Using a Deep Convolutional Network with Multiple Kernel Shapes},
  author = {Carlos Lordelo and Emmanouil Benetos and Simon Dixon and Sven Ahlbäck},
  journal= {arXiv preprint arXiv:2107.13617},
  year   = {2021}
}

Comments

4 figures, 4 tables and 7 pages. Accepted for publication at ISMIR Conference 2021

R2 v1 2026-06-24T04:36:56.626Z