MIRACLE--用于声学学习的麦克风阵列脉冲响应数据集

IF 1.7 3区 计算机科学 Q2 ACOUSTICS
Adam Kujawski, Art J. R. Pelling, Ennes Sarradj
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引用次数: 0

摘要

这项研究引入了一个大型数据集,该数据集包含与平面麦克风阵列平行的平面内空间分布声源的脉冲响应。该数据集名为 MIRACLE,包含 856 128 个单通道脉冲响应,包括四种不同的测量场景。其中三个测量场景是在消声条件下进行的。第四种情况包括来自反射板的额外镜面反射。每个场景的声源位置都是通过均匀离散平行于麦克风的矩形声源平面获得的。数据集包含两种不同声源平面到阵列距离下空间分辨率为 $23\\textrm{mm}$ 的三种场景,以及一种较短距离下分辨率为 $5\\textrm{mm}$ 的场景。与现有的房间脉冲响应数据集不同的是,该数据集对所提供的声源位置标签的准确性进行了评估,并提供了额外的元数据,如用于激励的扬声器的指向性。MIRACLE 数据集可作为数据驱动建模和插值方法以及各种声学机器学习任务(如声源分离、定位和特征描述)的基准。本作品介绍了该数据集的两个适时应用:为数据驱动的声源定位和特征描述任务生成麦克风阵列数据,以及数据驱动的模型阶次缩减。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MIRACLE—a microphone array impulse response dataset for acoustic learning
This work introduces a large dataset comprising impulse responses of spatially distributed sources within a plane parallel to a planar microphone array. The dataset, named MIRACLE, encompasses 856,128 single-channel impulse responses and includes four different measurement scenarios. Three measurement scenarios were conducted under anechoic conditions. The fourth scenario includes an additional specular reflection from a reflective panel. The source positions were obtained by uniformly discretizing a rectangular source plane parallel to the microphone for each scenario. The dataset contains three scenarios with a spatial resolution of $$23\,\textrm{mm}$$ at two different source-plane-to-array distances, as well as a scenario with a resolution of $$5\,\textrm{mm}$$ for the shorter distance. In contrast to existing room impulse response datasets, the accuracy of the provided source location labels is assessed and additional metadata, such as the directivity of the loudspeaker used for excitation, is provided. The MIRACLE dataset can be used as a benchmark for data-driven modelling and interpolation methods as well as for various acoustic machine learning tasks, such as source separation, localization, and characterization. Two timely applications of the dataset are presented in this work: the generation of microphone array data for data-driven source localization and characterization tasks and data-driven model order reduction.
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来源期刊
Eurasip Journal on Audio Speech and Music Processing
Eurasip Journal on Audio Speech and Music Processing ACOUSTICS-ENGINEERING, ELECTRICAL & ELECTRONIC
CiteScore
4.10
自引率
4.20%
发文量
0
审稿时长
12 months
期刊介绍: The aim of “EURASIP Journal on Audio, Speech, and Music Processing” is to bring together researchers, scientists and engineers working on the theory and applications of the processing of various audio signals, with a specific focus on speech and music. EURASIP Journal on Audio, Speech, and Music Processing will be an interdisciplinary journal for the dissemination of all basic and applied aspects of speech communication and audio processes.
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