Uros Zivanovic

Uros Zivanovic, Serafina Di Gioia, Andre Scaffidi et al.

Applying Transformers to irregular time-series typically requires specializations to their baseline architecture, which can result in additional computational overhead and increased method complexity. We present the Rotary Masked Autoencoder (RoMAE), which utilizes the popular Rotary Positional Embedding (RoPE) method for continuous positions. RoMAE is an extension to the Masked Autoencoder (MAE) that enables interpolation and representation learning with multidimensional continuous positional information while avoiding any time-series-specific architectural specializations. We showcase RoMAE's performance on a variety of modalities including irregular and multivariate time-series, images, and audio, demonstrating that RoMAE surpasses specialized time-series architectures on difficult datasets such as the DESC ELAsTiCC Challenge while maintaining MAE's usual performance across other modalities. In addition, we investigate RoMAE's ability to reconstruct the embedded continuous positions, demonstrating that including learned embeddings in the input sequence breaks RoPE's relative position property.

Uros Zivanovic, Ivan Pilkov, Carlos Eduardo Cancino-Chacón

Visual piano transcription (VPT) is the task of obtaining a symbolic representation of a piano performance from visual information alone (e.g., from a top-down video of the piano keyboard). In this work we propose a VPT system based on the vision transformer (ViT), which surpasses previous methods based on convolutional neural networks (CNNs). Our system is trained on the newly introduced R3 dataset, consisting of ca.~31 hours of synchronized video and MIDI recordings of piano performances. We additionally introduce an approach to predict note offsets, which has not been previously explored in this context. We show that our system outperforms the state-of-the-art on the PianoYT dataset for onset prediction and on the R3 dataset for both onsets and offsets.