Rodrigo Schramm scite author profile

This paper presents a method for automatic music transcription applied to audio recordings of a cappella performances with multiple singers. We propose a system for multi-pitch detection and voice assignment that integrates an acoustic and a music language model. The acoustic model performs spectrogram decomposition, extending probabilistic latent component analysis (PLCA) using a six-dimensional dictionary with pre-extracted log-spectral templates. The music language model performs voice separation and assignment using hidden Markov models that apply musicological assumptions. By integrating the two models, the system is able to detect multiple concurrent pitches in polyphonic vocal music and assign each detected pitch to a specific voice type such as soprano, alto, tenor or bass (SATB). We compare our system against multiple baselines, achieving state-of-the-art results for both multi-pitch detection and voice assignment on a dataset of Bach chorales and another of barbershop quartets. We also present an additional evaluation of our system using varied pitch tolerance levels to investigate its performance at 20-cent pitch resolution.

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Gesture in performance with traditional musical instruments and electronics

Visi

Schramm

Miranda

2014

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Musical Instruments, Body Movement, Space, and Motion Data: Music as an Emergent Multimodal Choreography

Visi¹,

Coorevits²,

Schramm³

et al. 2017

Human Technology

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Rodrigo Schramm

Rectangle detection based on a windowed Hough transform

Dynamic Time Warping for Music Conducting Gestures Evaluation

Automatic Transcription of Polyphonic Vocal Music

Gesture in performance with traditional musical instruments and electronics

Musical Instruments, Body Movement, Space, and Motion Data: Music as an Emergent Multimodal Choreography

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