Multi-task Learning for Detection, Recovery, and Separation of Polyphonic Music

2020 IEEE REGION 10 CONFERENCE (TENCON) Pub Date : 2020-11-16 DOI:10.1109/TENCON50793.2020.9293783

Vanessa Tan, Franz A. de Leon

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引用次数: 1

Abstract

Music separation aims to extract the signals of individual sources from a given audio mixture. Recent studies explored the use of deep learning algorithms for this problem. Although these algorithms have proven to have good performance, they are inefficient as they need to learn an independent model for each sound source. In this study, we demonstrate a multi-task learning system for music separation, detection, and recovery. The proposed system separates polyphonic music into four sound sources using a single model. It also detects the presence of a source in the given mixture. Lastly, it reconstructs the input mixture to help the network further learn the audio representation. Our novel approach exploits the shared information in each task, thus, improving the separation performance of the system. It was determined that the best configuration for the multi-task learning is to separate the sources first, followed by parallel modules for classification and recovery. Quantitative and qualitative results show that the performance of our system is comparable to baselines for separation and classification.

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多任务学习对复调音乐的检测、恢复和分离

音乐分离旨在从给定的音频混合中提取单个源的信号。最近的研究探索了使用深度学习算法来解决这个问题。虽然这些算法已被证明具有良好的性能，但由于它们需要为每个声源学习一个独立的模型，因此效率低下。在这项研究中，我们展示了一个多任务学习系统，用于音乐的分离、检测和恢复。该系统使用单一模型将复调音乐分成四个声源。它还可以检测给定混合物中是否存在源。最后，重建输入混合，帮助网络进一步学习音频表示。我们的新方法利用了每个任务中的共享信息，从而提高了系统的分离性能。确定了多任务学习的最佳配置是先分离源，然后并行模块进行分类和恢复。定量和定性结果表明，我们的系统的性能与分离和分类的基线相当。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2020 IEEE REGION 10 CONFERENCE (TENCON)

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