Mack W, Habets E (2020)
Publication Type: Journal article
Publication year: 2020
Book Volume: 27
Pages Range: 61-65
Article Number: 8911434
Signal extraction from a single-channel mixture with additional undesired signals is most commonly performed using time-frequency (TF) masks. Typically, the mask is estimated with a deep neural network (DNN), and element-wise applied to the complex mixture short-time Fourier transform (STFT) representation to perform the extraction. Ideal mask magnitudes are zero for solely undesired signals in a TF bin and undefined for total destructive interference. Usually, masks have an upper bound to provide well-defined DNN outputs at the cost of limited extraction capabilities. We propose to estimate with a DNN a complex TF filter for each mixture TF bin which maps an STFT area in the respective mixture to the desired TF bin to address destructive interference in mixture TF bins. The DNN is optimized by minimizing the error between the extracted and the ground-truth desired signal allowing to learn the TF filters without having to specify ground-truth TF filters. We compare our approach with complex and real-valued TF masks by separating speech from a variety of different sound and noise classes from the Google AudioSet corpus. We also process the mixture STFT with notch-filters and zero whole time-frames, to simulate packet-loss during transmission, to demonstrate the reconstruction capabilities of our approach. The proposed method outperformed the baselines, especially when notch-filters and time-frame zeroing were applied.
APA:
Mack, W., & Habets, E. (2020). Deep Filtering: Signal Extraction and Reconstruction Using Complex Time-Frequency Filters. IEEE Signal Processing Letters, 27, 61-65. https://dx.doi.org/10.1109/LSP.2019.2955818
MLA:
Mack, Wolfgang, and Emanuël Habets. "Deep Filtering: Signal Extraction and Reconstruction Using Complex Time-Frequency Filters." IEEE Signal Processing Letters 27 (2020): 61-65.
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