Logo
ScienceStack
Table of Contents
Fetching ...
Sign In

An End-to-End Approach for Chord-Conditioned Song Generation

Shuochen Gao, Shun Lei, Fan Zhuo, Hangyu Liu, Feng Liu, Boshi Tang, Qiaochu Huang, Shiyin Kang, Zhiyong Wu

TL;DR

This work devise a robust cross-attention mechanism augmented with dynamic weight sequence to integrate extracted chord information into song generations and reduce frame-level flaws, and propose a novel model termed Chord-Conditioned Song Generator (CSG) based on it.

Abstract

The Song Generation task aims to synthesize music composed of vocals and accompaniment from given lyrics. While the existing method, Jukebox, has explored this task, its constrained control over the generations often leads to deficiency in music performance. To mitigate the issue, we introduce an important concept from music composition, namely chords, to song generation networks. Chords form the foundation of accompaniment and provide vocal melody with associated harmony. Given the inaccuracy of automatic chord extractors, we devise a robust cross-attention mechanism augmented with dynamic weight sequence to integrate extracted chord information into song generations and reduce frame-level flaws, and propose a novel model termed Chord-Conditioned Song Generator (CSG) based on it. Experimental evidence demonstrates our proposed method outperforms other approaches in terms of musical performance and control precision of generated songs.

An End-to-End Approach for Chord-Conditioned Song Generation

TL;DR

This work devise a robust cross-attention mechanism augmented with dynamic weight sequence to integrate extracted chord information into song generations and reduce frame-level flaws, and propose a novel model termed Chord-Conditioned Song Generator (CSG) based on it.

Abstract

The Song Generation task aims to synthesize music composed of vocals and accompaniment from given lyrics. While the existing method, Jukebox, has explored this task, its constrained control over the generations often leads to deficiency in music performance. To mitigate the issue, we introduce an important concept from music composition, namely chords, to song generation networks. Chords form the foundation of accompaniment and provide vocal melody with associated harmony. Given the inaccuracy of automatic chord extractors, we devise a robust cross-attention mechanism augmented with dynamic weight sequence to integrate extracted chord information into song generations and reduce frame-level flaws, and propose a novel model termed Chord-Conditioned Song Generator (CSG) based on it. Experimental evidence demonstrates our proposed method outperforms other approaches in terms of musical performance and control precision of generated songs.
Paper Structure (14 sections, 3 equations, 2 figures, 1 table)

This paper contains 14 sections, 3 equations, 2 figures, 1 table.

Table of Contents

  1. Introduction
  2. Methodology
  3. Chord Token Extraction
  4. Attention with Dynamic Weights Sequence (DWS)
  5. Experiments
  6. Dataset
  7. Experiment Setup
  8. Results
  9. Subjective Evaluation
  10. Objective Evaluation
  11. Ablation Study
  12. Case Study
  13. Conclusion
  14. Acknowledgements

Figures (2)

  • Figure 1: The overall architecture of CSG with proposed Attention with DWS
  • Figure 2: Synthesized spectrograms with note labels. Blue rectangular frames and the color bars below the spectrograms highlight the chords of the generated songs.