Abstract
Ad hoc wireless acoustic sensor networks (WASNs) hold great potential for improved performance in speech processing applications, thanks to better coverage and higher diversity of the received signals. We consider a multiple speaker scenario where each of the WASN nodes, an autonomous system comprising of sensing, processing and communicating capabilities, is positioned in the near-field of one of the speakers. Each node aims at extracting its nearest speaker while suppressing other speakers and noise. The ad hoc network is characterized by an arbitrary number of speakers/nodes with uncontrolled microphone constellation. In this paper we propose a distributed algorithm which shares information between nodes. The algorithm requires each node to transmit a single audio channel in addition to a soft time-frequency (TF) activity mask for its nearest speaker. The TF activity masks are computed as a combination of estimates of a model-based speech presence probability (SPP), direct to reverberant ratio (DRR) and direction of arrival (DOA) per TF bin. The proposed algorithm, although sub-optimal compared to the centralized solution, is superior to the single-node solution.
Original language | English |
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Title of host publication | 2014 14th International Workshop on Acoustic Signal Enhancement, IWAENC 2014 |
Publisher | Institute of Electrical and Electronics Engineers Inc. |
Pages | 169-173 |
Number of pages | 5 |
ISBN (Electronic) | 9781479968084 |
DOIs | |
State | Published - 11 Nov 2014 |
Event | 2014 14th International Workshop on Acoustic Signal Enhancement, IWAENC 2014 - Juan-les-Pins, France Duration: 8 Sep 2014 → 11 Sep 2014 |
Publication series
Name | 2014 14th International Workshop on Acoustic Signal Enhancement, IWAENC 2014 |
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Conference
Conference | 2014 14th International Workshop on Acoustic Signal Enhancement, IWAENC 2014 |
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Country/Territory | France |
City | Juan-les-Pins |
Period | 8/09/14 → 11/09/14 |
Bibliographical note
Publisher Copyright:© 2014 IEEE.
Keywords
- Acoustics
- Covariance matrices
- Direction-of-arrival estimation
- Microphones
- Noise
- Speech
- Vectors