Geometrically Constrained TRINICON-based relative transfer function estimation in underdetermined scenarios

2013 IEEE Workshop on Applications of Signal Processing to Audio and Acoustics Pub Date : 2013-10-01 DOI:10.1109/WASPAA.2013.6701822

K. Reindl, S. M. Golan, Hendrik Barfuss, S. Gannot, Walter Kellermann

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引用次数: 31

Abstract

Speech extraction in a reverberant enclosure using a linearly-constrained minimum variance (LCMV) beamformer usually requires reliable estimates of the relative transfer functions (RTFs) of the desired source to all microphones. In this contribution, a geometrically constrained (GC)-TRINICON concept for RTF estimation is proposed. This approach is applicable in challenging multiple-speaker scenarios and in underdetermined situations, where the number of simultaneously active sources outnumbers the number of available microphone signals. As a most practically relevant and distinctive feature, this concept does not require any voice-activity-based control mechanism. It only requires coarse reference information on the target direction of arrival (DoA). The proposed GC-TRINICON method is compared to a recently proposed subspace method for RTF estimation relying on voice-activity control. Experimental results confirm the effectiveness of GC-TRINICON in realistic conditions.

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欠确定场景下基于几何约束trinicon的相对传递函数估计

使用线性约束最小方差波束形成器在混响腔中提取语音通常需要可靠地估计期望源到所有麦克风的相对传递函数(rtf)。在这篇贡献中，提出了用于RTF估计的几何约束(GC)-TRINICON概念。这种方法适用于具有挑战性的多扬声器场景和不确定的情况，在这种情况下，同时有效的信号源数量超过了可用的麦克风信号数量。作为最实际和最独特的功能，这个概念不需要任何基于语音活动的控制机制。它只需要目标到达方向(DoA)的粗略参考信息。提出的GC-TRINICON方法与最近提出的依赖于语音活动控制的RTF估计子空间方法进行了比较。实验结果证实了GC-TRINICON在现实条件下的有效性。

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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2013 IEEE Workshop on Applications of Signal Processing to Audio and Acoustics

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