Cluster and Separate: a GNN Approach to Voice and Staff Prediction for Score Engraving

Francesco Foscarin; Emmanouil Karystinaios; Eita Nakamura; Gerhard Widmer

Cluster and Separate: a GNN Approach to Voice and Staff Prediction for Score Engraving

Francesco Foscarin
, Emmanouil Karystinaios
, Eita Nakamura
, Gerhard Widmer

Research output: Chapter in Book/Report/Conference proceeding › Conference proceedings › peer-review

Abstract

This paper approaches the problem of separating the notes from a quantized symbolic music piece (e.g., a MIDI file) into multiple voices and staves. This is a fundamental part of the larger task of music score engraving (or score typesetting), which aims to produce readable musical scores for human performers. We focus on piano music and support homophonic voices, i.e., voices that can contain chords, and cross-staff voices, which are notably difficult tasks that have often been overlooked in previous research. We propose an end-to-end system based on graph neural networks that clusters notes that belong to the same chord and connects them with edges if they are part of a voice. Our results show clear and consistent improvements over a previous approach on two datasets of different styles. To aid the qualitative analysis of our results, we support the export in symbolic music formats and provide a direct visualization of our outputs graph over the musical score. All code and pre-trained models are available at this https URL

Original language	English
Title of host publication	International Society for Music Information Retrieval Conference (ISMIR)
Number of pages	6
Publication status	Published - 2024

Fields of science

202002 Audiovisual media
102 Computer Sciences
102001 Artificial intelligence
102003 Image processing
102015 Information systems
101019 Stochastics
103029 Statistical physics
101018 Statistics
101017 Game theory
202017 Embedded systems
101016 Optimisation
101015 Operations research
101014 Numerical mathematics
101029 Mathematical statistics
101028 Mathematical modelling
101026 Time series analysis
101024 Probability theory
102032 Computational intelligence
102004 Bioinformatics
102013 Human-computer interaction
101027 Dynamical systems
305907 Medical statistics
101004 Biomathematics
305905 Medical informatics
101031 Approximation theory
102033 Data mining
305901 Computer-aided diagnosis and therapy
102019 Machine learning
106007 Biostatistics
102018 Artificial neural networks
106005 Bioinformatics
202037 Signal processing
202036 Sensor systems
202035 Robotics

JKU Focus areas

Digital Transformation

Cite this

@inproceedings{7da359338ec44bf19c275ab0f0bd4b3b,

title = "Cluster and Separate: a GNN Approach to Voice and Staff Prediction for Score Engraving",

abstract = "This paper approaches the problem of separating the notes from a quantized symbolic music piece (e.g., a MIDI file) into multiple voices and staves. This is a fundamental part of the larger task of music score engraving (or score typesetting), which aims to produce readable musical scores for human performers. We focus on piano music and support homophonic voices, i.e., voices that can contain chords, and cross-staff voices, which are notably difficult tasks that have often been overlooked in previous research. We propose an end-to-end system based on graph neural networks that clusters notes that belong to the same chord and connects them with edges if they are part of a voice. Our results show clear and consistent improvements over a previous approach on two datasets of different styles. To aid the qualitative analysis of our results, we support the export in symbolic music formats and provide a direct visualization of our outputs graph over the musical score. All code and pre-trained models are available at this https URL",

author = "Francesco Foscarin and Emmanouil Karystinaios and Eita Nakamura and Gerhard Widmer",

year = "2024",

language = "English",

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T1 - Cluster and Separate: a GNN Approach to Voice and Staff Prediction for Score Engraving

AU - Foscarin, Francesco

AU - Karystinaios, Emmanouil

AU - Nakamura, Eita

AU - Widmer, Gerhard

PY - 2024

Y1 - 2024

N2 - This paper approaches the problem of separating the notes from a quantized symbolic music piece (e.g., a MIDI file) into multiple voices and staves. This is a fundamental part of the larger task of music score engraving (or score typesetting), which aims to produce readable musical scores for human performers. We focus on piano music and support homophonic voices, i.e., voices that can contain chords, and cross-staff voices, which are notably difficult tasks that have often been overlooked in previous research. We propose an end-to-end system based on graph neural networks that clusters notes that belong to the same chord and connects them with edges if they are part of a voice. Our results show clear and consistent improvements over a previous approach on two datasets of different styles. To aid the qualitative analysis of our results, we support the export in symbolic music formats and provide a direct visualization of our outputs graph over the musical score. All code and pre-trained models are available at this https URL

AB - This paper approaches the problem of separating the notes from a quantized symbolic music piece (e.g., a MIDI file) into multiple voices and staves. This is a fundamental part of the larger task of music score engraving (or score typesetting), which aims to produce readable musical scores for human performers. We focus on piano music and support homophonic voices, i.e., voices that can contain chords, and cross-staff voices, which are notably difficult tasks that have often been overlooked in previous research. We propose an end-to-end system based on graph neural networks that clusters notes that belong to the same chord and connects them with edges if they are part of a voice. Our results show clear and consistent improvements over a previous approach on two datasets of different styles. To aid the qualitative analysis of our results, we support the export in symbolic music formats and provide a direct visualization of our outputs graph over the musical score. All code and pre-trained models are available at this https URL

M3 - Conference proceedings

BT - International Society for Music Information Retrieval Conference (ISMIR)

ER -