Evaluating High-Resolution Piano Sustain Pedal Depth Estimation with Musically Informed Metrics

October 04, 2025 Β· Declared Dead Β· πŸ› arXiv.org

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Authors Hanwen Zhang, Kun Fang, Ziyu Wang, Ichiro Fujinaga arXiv ID 2510.03750 Category cs.IR: Information Retrieval Cross-listed cs.SD, eess.AS Citations 0 Venue arXiv.org Last Checked 4 months ago
Abstract
Evaluation for continuous piano pedal depth estimation tasks remains incomplete when relying only on conventional frame-level metrics, which overlook musically important features such as direction-change boundaries and pedal curve contours. To provide more interpretable and musically meaningful insights, we propose an evaluation framework that augments standard frame-level metrics with an action-level assessment measuring direction and timing using segments of press/hold/release states and a gesture-level analysis that evaluates contour similarity of each press-release cycle. We apply this framework to compare an audio-only baseline with two variants: one incorporating symbolic information from MIDI, and another trained in a binary-valued setting, all within a unified architecture. Results show that the MIDI-informed model significantly outperforms the others at action and gesture levels, despite modest frame-level gains. These findings demonstrate that our framework captures musically relevant improvements indiscernible by traditional metrics, offering a more practical and effective approach to evaluating pedal depth estimation models.
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