如何在一个弹指间定位十个麦克风

Ivan Dokmanić, L. Daudet, M. Vetterli
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引用次数: 23

摘要

校准阵列中麦克风位置的一种引人注目的方法是将源置于未知位置。值得注意的是,如果源和接收器的数量大于某个规定的最小值[1,2],则有可能重建源和接收器的位置。现有的方法基于到达时间或到达时间差,只利用了源和接收机之间的直接路径。在这篇概念验证论文中,我们观察到,通过将整个装置放置在房间内,我们可以减少校准所需的源数量。此外,我们的技术允许我们计算麦克风阵列在房间中的绝对位置,而不是知道它到一个刚性变换或反射。关键的观察是,回声对应于我们“免费”获得的虚拟源。这使得仅使用单个源校准阵列等工作成为可能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How to localize ten microphones in one finger snap
A compelling method to calibrate the positions of microphones in an array is with sources at unknown locations. Remarkably, it is possible to reconstruct the locations of both the sources and the receivers, if their number is larger than some prescribed minimum [1, 2]. Existing methods, based on times of arrival or time differences of arrival, only exploit the direct paths between the sources and the receivers. In this proof-of-concept paper, we observe that by placing the whole setup inside a room, we can reduce the number of sources required for calibration. Moreover, our technique allows us to compute the absolute position of the microphone array in the room, as opposed to knowing it up to a rigid transformation or reflection. The key observation is that echoes correspond to virtual sources that we get “for free”. This enables endeavors such as calibrating the array using only a single source.
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