Stephen Ni-Hahn, Weihan Xu, Jerry Yin, Rico Zhu, Simon Mak, Yue Jiang, Cynthia Rudin
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A New Dataset, Notation Software, and Representation for Computational Schenkerian Analysis
Schenkerian Analysis (SchA) is a uniquely expressive method of music
analysis, combining elements of melody, harmony, counterpoint, and form to
describe the hierarchical structure supporting a work of music. However,
despite its powerful analytical utility and potential to improve music
understanding and generation, SchA has rarely been utilized by the computer
music community. This is in large part due to the paucity of available
high-quality data in a computer-readable format. With a larger corpus of
Schenkerian data, it may be possible to infuse machine learning models with a
deeper understanding of musical structure, thus leading to more "human"
results. To encourage further research in Schenkerian analysis and its
potential benefits for music informatics and generation, this paper presents
three main contributions: 1) a new and growing dataset of SchAs, the largest in
human- and computer-readable formats to date (>140 excerpts), 2) a novel
software for visualization and collection of SchA data, and 3) a novel,
flexible representation of SchA as a heterogeneous-edge graph data structure.
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