Robust blind dereverberation of speech signals based on characteristics of short-time speech segments

This paper addresses blind dereverberation techniques based on the inherent characteristics of speech signals. Two challenging issues for speech dereverberation involve decomposing reverberant observed signals into colored sources and room transfer functions (RTFs), and making the inverse filtering robust as regards acoustic and system noise. We show that short-time speech characteristics are very important for this task, and that multi-channel linear prediction (MCLP) is a useful tool for achieving robust inverse filtering. As examples, we detail three recently proposed robust dereverberation methods. By assuming the source to be a small order autoregressive process, we can present an efficient source estimation method that reduces late reverberation reflections of the reverberation using multi-step linear prediction. By exploiting the time-varying nature of the speech signals, we can also develop a method that can estimate both the source and the inverse filters of the RTFs. Furthermore, we can achieve high quality speech dereverberation by formulating the problem as a likelihood maximization problem using a statistical speech model that represents the spectral characteristics of short-time speech segments including harmonicity.