In this paper we consider a binaural hearing aid setup, where in addition to the head-mounted microphones an external microphone is available. For this setup, we investigate the performance of several relative transfer function (RTF) vector estimation methods to estimate the direction of arrival (DOA) of the target speaker in a noisy and reverberant acoustic environment. More in particular, we consider the state-of-the-art covariance whitening (CW) and covariance subtraction (CS) methods, either incorporating the external microphone or not, and the recently proposed spatial coherence (SC) method, requiring the external microphone. To estimate the DOA from the estimated RTF vector, we propose to minimize the frequency-averaged Hermitian angle between the estimated head-mounted RTF vector and a database of prototype head-mounted RTF vectors. Experimental results with stationary and moving speech sources in a reverberant environment with diffuse-like noise show that the SC method outperforms the CS method and yields a similar DOA estimation accuracy as the CW method at a lower computational complexity.
翻译:在本文中,我们考虑的是双声听力辅助装置,除了有架顶式麦克风之外,还有外传麦克风。对于这一装置,我们调查了几个相对传输功能(RTF)矢量估计方法的性能,以估计目标扬声器在噪音和回声声响声环境中的到达方向。更具体地说,我们考虑的是最先进的共变白(CW)和共变色减色(CS)方法,其中要么包括外部麦克风,要么不包括外部麦克风,以及最近提出的空间一致性(SC)方法,其中要求有外部麦克风。为了从估计的RTF矢量中估算DA,我们提议尽量缩小估计的头载RTF矢量和原型原型正载RTF矢量的频率平均角度之间的距离。在具有扩散类似噪音的回声环境中固定和移动语音源的实验结果显示,SC方法比CS方法更符合CS方法,并得出与CW方法在较低计算复杂度时的类似数字。