DSENet: Directional Signal Extraction Network for Hearing Improvement on Edge Devices

IF 3.4 3区计算机科学 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS IEEE Access Pub Date : 2023-01-11 DOI:10.1109/ACCESS.2023.3235948

Anton Kovalyov;Kashyap Patel;Issa Panahi

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引用次数: 2

Abstract

In this paper, we propose a directional signal extraction network (DSENet). DSENet is a low-latency, real-time neural network that, given a reverberant mixture of signals captured by a microphone array, aims at extracting the reverberant signal whose source is located within a directional region of interest. If there are multiple sources situated within the directional region of interest, DSENet will aim at extracting a combination of their reverberant signals. As such, the formulation of DSENet circumvents the well-known crosstalk problem in beamforming while providing an alternative and perhaps more practical approach to other spatially constrained signal extraction methods proposed in the literature. DSENet is based on a computationally efficient and low-distortion linear model formulated in the time domain. As a result, an important application of our work is hearing improvement on edge devices. Simulation results show that DSENet outperforms oracle beamformers, as well as state-of-the-art in low-latency causal speech separation, while incurring a system latency of only 4 ms. Additionally, DSENet has been successfully deployed as a real-time application on a smartphone.

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DSENet：用于改善边缘设备听力的定向信号提取网络

在本文中，我们提出了一种定向信号提取网络（DSNet）。DSENet是一种低延迟实时神经网络，在给定麦克风阵列捕获的信号的混响混合的情况下，旨在提取其源位于感兴趣的定向区域内的混响信号。如果在感兴趣的方向区域内有多个源，DSENet将致力于提取它们的混响信号的组合。因此，DSENet的公式绕过了波束成形中众所周知的串扰问题，同时为文献中提出的其他空间约束信号提取方法提供了一种替代方法，也许更实用。DSENet基于在时域中制定的计算高效且低失真的线性模型。因此，我们工作的一个重要应用是改善边缘设备的听力。仿真结果表明，DSENet在低延迟因果语音分离方面优于oracle波束形成器，而且在系统延迟仅为4ms的情况下，也是最先进的。此外，DSENet已成功部署为智能手机上的实时应用程序。

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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来源期刊

IEEE Access COMPUTER SCIENCE, INFORMATION SYSTEMSENGIN-ENGINEERING, ELECTRICAL & ELECTRONIC

CiteScore

9.80

自引率

7.70%

发文量

6673

审稿时长

6 weeks

期刊介绍： IEEE Access® is a multidisciplinary, open access (OA), applications-oriented, all-electronic archival journal that continuously presents the results of original research or development across all of IEEE''s fields of interest. IEEE Access will publish articles that are of high interest to readers, original, technically correct, and clearly presented. Supported by author publication charges (APC), its hallmarks are a rapid peer review and publication process with open access to all readers. Unlike IEEE''s traditional Transactions or Journals, reviews are "binary", in that reviewers will either Accept or Reject an article in the form it is submitted in order to achieve rapid turnaround. Especially encouraged are submissions on: Multidisciplinary topics, or applications-oriented articles and negative results that do not fit within the scope of IEEE''s traditional journals. Practical articles discussing new experiments or measurement techniques, interesting solutions to engineering. Development of new or improved fabrication or manufacturing techniques. Reviews or survey articles of new or evolving fields oriented to assist others in understanding the new area.