A recurrent encoder-decoder approach with skip-filtering connections for monaural singing voice separation

S. Mimilakis, K. Drossos, T. Virtanen, G. Schuller
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引用次数: 30

Abstract

The objective of deep learning methods based on encoder-decoder architectures for music source separation is to approximate either ideal time-frequency masks or spectral representations of the target music source(s). The spectral representations are then used to derive time-frequency masks. In this work we introduce a method to directly learn time-frequency masks from an observed mixture magnitude spectrum. We employ recurrent neural networks and train them using prior knowledge only for the magnitude spectrum of the target source. To assess the performance of the proposed method, we focus on the task of singing voice separation. The results from an objective evaluation show that our proposed method provides comparable results to deep learning based methods which operate over complicated signal representations. Compared to previous methods that approximate time-frequency masks, our method has increased performance of signal to distortion ratio by an average of 3.8 dB.
一种用于单音歌唱声音分离的带跳过滤波连接的循环编码器-解码器方法
基于编码器-解码器架构的深度学习方法用于音乐源分离的目标是近似目标音乐源的理想时频掩码或频谱表示。然后使用谱表示来推导时频掩模。在这项工作中,我们介绍了一种从观测到的混合幅度谱中直接学习时频掩模的方法。我们使用递归神经网络,并使用仅针对目标源的幅度谱的先验知识来训练它们。为了评估所提出的方法的性能,我们将重点放在歌唱声音分离的任务上。客观评估的结果表明,我们提出的方法提供了与基于深度学习的方法相当的结果,这些方法处理复杂的信号表示。与以前近似时频掩模的方法相比,我们的方法将信号失真比的性能平均提高了3.8 dB。
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