Microphone array speaker localizers using spatial-temporal information

Abstract

A dual-step approach for speaker localization based on a microphone array is addressed in this paper. In the first stage,which is not the main concern of this paper, the time difference between arrivals of the speech signal at each pair of microphones is estimated. These readings are combined in the second stage to obtain the source location. In this paper, we focus on the second stage of the localization task. In this contribution, we propose to exploit the speaker's smooth trajectory for improving the current position estimate. Three localization schemes, which use the temporal information, are presented. The first is a recursive form of the Gauss method. The other two are extensions of the Kalman filter to the nonlinear problem at hand, namely, theextended Kalman filter and the unscented Kalman filter. These methods are compared with other algorithms, which do not make use of the temporal information. An extensive experimental study demonstrates the advantage of using the spatial-temporal methods. To gain some insight on the obtainable performance of the localization algorithm, an approximate analytical evaluation, verified by an experimental study, is conducted. This study shows that in common TDOA-based localization scenarioswhere the microphone array has small interelement spread relative to the source positionthe elevation and azimuth angles can be accurately estimated, whereas the Cartesian coordinates as well as the range are poorly estimated. Copyright © 2006 Hindawi Publishing Corporation. All rights reserved.