Doctoral Degree in Engineering
西北工业大学
西北工业大学
Gender:Male
Business Address:南京航空航天大学将军路校区电子信息工程学院306室
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Affiliation of Author(s):电子信息工程学院
Journal:IEEE SENSORS JOURNAL
Key Words:DOA estimation first-order differential microphone array sound intensity room reverberation
Abstract:Sound source direction-of-arrival (DOA) estimation in reverberant environments with low-computational complexity remains a challenging problem, especially for small-sized microphone arrays. To address the problem, a promising method is based on the sound intensity (SI) measurement using differential microphone arrays (DMAs), which can give a closed-form solution and, hence, is computationally efficient. Unfortunately, the SI-based method has been shown to be sensitive to room reverberation, and therefore, more works need to be done to improve its performance in reverberant environments. In this paper, we propose an SI-based closed-form DOA estimation algorithm through the joint temporal-spectral-spatial processing by using two orthogonal first-order DMAs. The proposed method consists of two stages. In the first stage, it focuses on temporal-spectral processing to improve the SI-based DOA estimation, and a preliminary DOA estimate is made through a dual-threshold technique inspired by the local DOA variance weighting scheme in the time-frequency domain. In the second stage, the preliminary DOA estimate is then refined through the spatial processing, where the two first-order orthogonal DMAs are further utilized to construct a first-order steerable DMA for dereverberation, which is shown to be useful when the signal to noise ratio is not too low. Simulations and real-world experiments in reverberant environments have demonstrated the superior performance of the proposed closed-form DOA estimation method.
ISSN No.:1530-437X
Translation or Not:no
Date of Publication:2017-02-15
Co-author:He, Saijuan
Correspondence Author:Huawei Chen