This paper proposes a joint acoustic echo cancellation (AEC) and speech dereverberation (DR) algorithm in the short-time Fourier transform domain. The reverberant microphone signals are described using an auto-regressive (AR) model. The AR coefficients and the loudspeaker-to-microphone acoustic transfer functions (ATFs) are considered time-varying and are modeled simultaneously using a first-order Markov process. This leads to a solution where these parameters can be optimally estimated using Kalman filters. It is shown that the proposed algorithm outperforms vanilla solutions that solve AEC and DR sequentially and one state-of-the-art joint DRAEC algorithm based on semi-blind source separation, in terms of both speech quality and echo reduction performance.
翻译:本文提议在短时间Fourier变换域中采用联合声回声取消法(AEC)和语音扭曲法(DR)算法。反动麦克风信号使用自动递减模型描述。AR系数和扩音器到麦克风声传输功能(ATF)被视为时间分配法,同时使用第一级Markov程序进行模拟。这导致一种解决办法,即利用Kalman过滤器对这些参数进行最佳估计。它表明,拟议的算法优于香草解决方案,即以半盲源分离为基础,在语音质量和回声减少性能两方面,按顺序和最先进的联合DRAEC算法解决AEC和DRDR。
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