Abstract
Direction-of-arrival (DOA) estimation is a fundamental technique in array signal processing due to its wide applications in beamforming, speech enhancement and many other assistive speech processing technologies. In this paper, we devise a novel DOA technique based on randomized singular value decomposition (RSVD) to improve the performance of non-uniform non-linear microphone arrays (NUNLA). The accurate and efficient singular value decomposition of large data matrices is computationally challenging, and randomization provides an effective tool for performing matrix approximation, therefore, the developed DOA estimation utilizes a modified dictionary-based RSVD method for localizing single speech sources under low signal-to-noise ratios (SNR). Unlike previous methods developed for uniform linear microphone arrays, the proposed approach with L-shaped three microphone setup has no ‘left-right’ ambiguity. We present the performance of our proposed method in comparison to other techniques. The demonstrated experiments shows at-least 20% performance improvement using simulated data and 25% performance improvement using real data when compared with similar DoA estimation techniques for NUNLA. The proposed method exploits frame-based online time delay of arrival (TDOA) measurements which facilitates the proposed algorithm to run on real-time devices. We also show an efficient real-time implementation of the proposed method on a Pixel 3 Android smartphone using its built-in three microphones for hearing aid applications.
Highlights
T HE World Health Organization (WHO) reported that approximately 466 million people worldwide have hearing loss, and 34 million of these are children [1]
This paper presents a novel noise-robust DOA method using the L-shaped microphone array structure available on modern smartphones to improve the experience of Hearing aid devices (HADs) users under noisy conditions
This paper presented a new approach for accurately localizing a sound source using especial L-shaped array with three microphones and its implementation on a Pixel 3 Android smartphone for hearing improvement
Summary
T HE World Health Organization (WHO) reported that approximately 466 million people worldwide have hearing loss, and 34 million of these are children [1]. It is projected that one in ten people, which accounts for over 900 million, will have disabling hearing loss in near future. In the US, approximately 15% of adults report some difficulty hearing, while around 50% of adults who are older than 75 have a hearing impairment [2]. Hearing aid devices (HADs) and Cochlear Implants (CI) were developed to compensate for the loss in audibility. The performance of such devices can achieve close to normal hearing performance in normal conditions
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