Binaural Spatial Transform for Multi-source Localization determining Angular Extent of Ensemble Source Width

2022 IEEE International Conference on Signal Processing and Communications (SPCOM) Pub Date : 2022-07-11 DOI:10.1109/SPCOM55316.2022.9840782

S. Arthi, T. Sreenivas

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Abstract

In the case of ensemble like distributed presentation, inter-aural cross-correlation (IACC) is correlated with the measure for source width extension. We question the validity of this measure and develop an angular measure for ensemble source width. In this work, we distinguish the binaural correlation functions of localized source, source with reverberation and ensemble source. We also develop a novel phase-only spatial transform to localize as many sources as possible. The angular separation between the spatial extrema sources can be a physical measure for ensemble source width. We also observe that phase-only HRIR cross-correlation functions act as listener dependent functional bases for localizing multiple sources. We observe these functional bases are wavelet-like and their signature are listener dependent and direction dependent. We extend the spatial transform to time-varying short-time spatial transform and define “Spatio-gram” to understand the effect of time-varying nature of the signal.

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多源定位的双耳空间变换确定集合源宽度角范围

在集成式分布式表示中，耳间互相关(IACC)与源宽度扩展度量相关。我们对这种测量方法的有效性提出了质疑，并提出了一种集成源宽度的角度测量方法。本文区分了局域声源、混响声源和合奏声源的双耳相关函数。我们还开发了一种新的纯相位空间变换来定位尽可能多的源。空间极值源之间的角间距可以作为系综源宽度的物理度量。我们还观察到，仅相位的HRIR互相关函数作为侦听器依赖的功能基础，用于定位多个源。我们观察到这些功能基是小波样的，它们的特征依赖于听者和方向。我们将空间变换扩展到时变短时空间变换，并定义了“空间图”来理解信号时变特性的影响。

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2022 IEEE International Conference on Signal Processing and Communications (SPCOM)

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