SPS Webinar: 9 November 2022, presented by Dr. DeLiang Wang

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News and Resources for Members of the IEEE Signal Processing Society

SPS Webinar: 9 November 2022, presented by Dr. DeLiang Wang

Upcoming SPS Webinar!

Title: Neural Spectrospatial Filter
Date: 9 November 2022
Time: 9:30 AM Eastern (New York time)
Duration: Approximately 1 Hour
Presenters: Dr. DeLiang Wang

Based on the IEEE Xplore® article: Supervised Speech Separation Based on Deep Learning: An Overview
Published: IEEE/ACM Transactions on Audio, Speech, and Language Processing, October 2018, available in IEEE Xplore®

Download: The original article is available for download.


Register for the Webinar



As the most widely-used spatial filtering approach for multi-channel signal separation, beamforming extracts the target signal arriving from a specific direction. We present an emerging approach based on multi-channel complex spectral mapping, which trains a deep neural network (DNN) to directly estimate the real and imaginary spectrograms of the target signal from those of the multi-channel noisy mixture. In this all-neural approach, the trained DNN itself becomes a nonlinear, time-varying spectrospatial filter.
How does this conceptually simple approach perform relative to commonly-used beamforming techniques on different array configurations and in different acoustic environments? We examine this issue systematically on speech dereverberation, speech enhancement, and speaker separation tasks. Comprehensive evaluations show that multi-channel complex spectral mapping achieves speech separation performance comparable to or better than beamforming for different array geometries, and reduces to monaural complex spectral mapping in single-channel conditions, demonstrating the versatility of this new approach for multi-channel and single-channel speech separation. In addition, such an approach is computationally more efficient than popular mask-based beamforming. We conclude that this neural spectrospatial filter provides a strong alternative to traditional and mask-based beamforming.


DeLiang Wang

Dr.  DeLiang Wang (F’04) received the B.S. degree and the M.S. degree from Peking (Beijing) University and the Ph.D. degree in 1991 from the University of Southern California all in computer science.
Since 1991, he has been with the Department of Computer Science & Engineering and the Center for Cognitive and Brain Sciences at The Ohio State University, where he is a Professor and University Distinguished Scholar.
Dr. Wang received the U.S. Office of Naval Research Young Investigator Award in 1996, the 2008 Helmholtz Award from the International Neural Network Society, the 2007 Outstanding Paper Award of the IEEE Computational Intelligence Society and the 2019 Best Paper Award of the IEEE Signal Processing Society. He is an IEEE Fellow and ISCA Fellow, and serves as Co-Editor-in-Chief of Neural Networks.




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