RTFS-Net: Recurrent Time-Frequency Modelling for Efficient Audio-Visual Speech Separation

• URL: http://arxiv.org/abs/2309.17189v4
• Date: Thu, 21 Mar 2024 09:19:18 GMT
• Title: RTFS-Net: Recurrent Time-Frequency Modelling for Efficient Audio-Visual Speech Separation
• Authors: Samuel Pegg, Kai Li, Xiaolin Hu,
• Abstract summary: We present a novel time-frequency domain audio-visual speech separation method. RTFS-Net applies its algorithms on the complex time-frequency bins yielded by the Short-Time Fourier Transform. This is the first time-frequency domain audio-visual speech separation method to outperform all contemporary time-domain counterparts.
• Score: 18.93255531121519
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Audio-visual speech separation methods aim to integrate different modalities to generate high-quality separated speech, thereby enhancing the performance of downstream tasks such as speech recognition. Most existing state-of-the-art (SOTA) models operate in the time domain. However, their overly simplistic approach to modeling acoustic features often necessitates larger and more computationally intensive models in order to achieve SOTA performance. In this paper, we present a novel time-frequency domain audio-visual speech separation method: Recurrent Time-Frequency Separation Network (RTFS-Net), which applies its algorithms on the complex time-frequency bins yielded by the Short-Time Fourier Transform. We model and capture the time and frequency dimensions of the audio independently using a multi-layered RNN along each dimension. Furthermore, we introduce a unique attention-based fusion technique for the efficient integration of audio and visual information, and a new mask separation approach that takes advantage of the intrinsic spectral nature of the acoustic features for a clearer separation. RTFS-Net outperforms the prior SOTA method in both inference speed and separation quality while reducing the number of parameters by 90% and MACs by 83%. This is the first time-frequency domain audio-visual speech separation method to outperform all contemporary time-domain counterparts.

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