A feature study for classification-based speech separation at very low signal-to-noise ratio

Speech separation is a challenging problem at low signal-to-noise ratios (SNRs). Separation can be formulated as a classification problem. In this study, we focus on the SNR level of -5 dB in which speech is generally dominated by background noise. In such a low SNR condition, extracting robust features from a noisy mixture is crucial for successful classification. Using a common neural network classifier, we systematically compare separation performance of many monaural features. In addition, we propose a new feature called Multi-Resolution Cochleagram (MRCG), which is extracted from four cochlea-grams of different resolutions to capture both local information and spectrotemporal context. Comparisons using two non-stationary noises show a range of feature robustness for speech separation with the proposed MRCG performing the best. We also find that ARMA filtering, a post-processing technique previously used for robust speech recognition, improves speech separation performance by smoothing the temporal trajectories of feature dimensions.