基于Gammatone滤波器分解的HRTF和GMM的双耳声源定位算法

    Binaural Sound Source Localization Algorithm Based on HRTF and GMM Under Gammatone Filter Decomposition

    • 摘要: 针对数字助听器中现存声源定位算法精确度低和算法复杂度高的问题,提出一种新的双耳声源定位算法.首先,采集到的双耳声源信号通过Gammatone滤波器分解为若干个子带信号,根据能量的大小对数据进行压缩.然后,利用头相关传递函数(head-related transfer function,HRTF)中包含的双耳线索,即双耳时间差、双耳声级差及耳间相关性,提取声源位置的特征.最后,声源的位置信息由高斯混合模型(Gaussian mixture model,GMM)分类器识别.实验结果表明,建议的算法具有高精确度、低复杂度及强鲁棒性.

       

      Abstract: Of the existing sound source localization algorithms for digital hearing aids, the accuracy is low while the computational complexity is high. To solve these problems, a new binaural sound source localization algorithm was proposed. First, the collected binaural sound signals were decomposed into several subband signals by the Gammatone filter, and the data was compressed according to the energy. Then, the binaural cues contained in the head-related transfer function (HRTF), namely interaural time difference, interaural level difference, and interaural coherence, were extracted to characterize the position of the sound source. Finally, the source location was estimated by the Gaussian mixture model (GMM) classifier. Experiment results show that the proposed algorithm has high accuracy, strong robustness, and low complexity.

       

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