Rigel Swavely scite author profile

Rigel Swavely

3Publications

12Citation Statements Received

56Citation Statements Given

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Sequence-to-Sequence Piano Transcription with Transformers

Hawthorne¹,

Simon²,

Swavely³

et al. 2021

Preprint

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Automatic Music Transcription has seen significant progress in recent years by training custom deep neural networks on large datasets. However, these models have required extensive domain-specific design of network architectures, input/output representations, and complex decoding schemes. In this work, we show that equivalent performance can be achieved using a generic encoderdecoder Transformer with standard decoding methods. We demonstrate that the model can learn to translate spectrogram inputs directly to MIDI-like output events for several transcription tasks. This sequence-to-sequence approach simplifies transcription by jointly modeling audio features and language-like output dependencies, thus removing the need for task-specific architectures. These results point toward possibilities for creating new Music Information Retrieval models by focusing on dataset creation and labeling rather than custom model design. Recent progress in piano transcription has been largely driven by two factors: the construction and release of datasets containing aligned piano audio and MIDI (most notably MAPS [1] and MAESTRO [2]) and the use of deep neural networks with architectures specifically designed for piano transcription (e.g., the Onsets and Frames architecture that models note onsets and note presence separately [3]). While domain-specific models have lead to improvements on benchmark datasets, it is not clear if these Work done as a Google Brain Student Researcher.

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Sequence-to-Sequence Piano Transcription with Transformers

Hawthorne¹,

Simon²,

Swavely³

et al. 2021

View full text Add to dashboard Cite

MIDI-DDSP: Detailed Control of Musical Performance via Hierarchical Modeling

Wu¹,

Manilow²,

Yi³

et al. 2021

Preprint

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Musical expression requires control of both what notes are played, and how they are performed. Conventional audio synthesizers provide detailed expressive controls, but at the cost of realism. Black-box neural audio synthesis and concatenative samplers can produce realistic audio, but have few mechanisms for control. In this work, we introduce MIDI-DDSP a hierarchical model of musical instruments that enables both realistic neural audio synthesis and detailed user control. Starting from interpretable Differentiable Digital Signal Processing (DDSP) synthesis parameters, we infer musical notes and high-level properties of their expressive performance (such as timbre, vibrato, dynamics, and articulation). This creates a 3-level hierarchy (notes, performance, synthesis) that affords individuals the option to intervene at each level, or utilize trained priors (performance given notes, synthesis given performance) for creative assistance. Through quantitative experiments and listening tests, we demonstrate that this hierarchy can reconstruct high-fidelity audio, accurately predict performance attributes for a note sequence, independently manipulate the attributes of a given performance, and as a complete system, generate realistic audio from a novel note sequence. By utilizing an interpretable hierarchy, with multiple levels of granularity, MIDI-DDSP opens the door to assistive tools to empower individuals across a diverse range of musical experience 1 .

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Rigel Swavely

Sequence-to-Sequence Piano Transcription with Transformers

Sequence-to-Sequence Piano Transcription with Transformers

MIDI-DDSP: Detailed Control of Musical Performance via Hierarchical Modeling

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