Introduction to the Issue on Acoustic Source Localization and Tracking in Dynamic Real-Life Scenes

The fourteen papers in this special section focus on acoustic source localization (ASLT). ASLT is a well-studied topic in signal processing, but most traditional methods incorporate simplifying assumptions such as a point source, free-field propagation of the sound wave, static acoustic sources, tim...

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Bibliographic Details
Published inIEEE journal of selected topics in signal processing Vol. 13; no. 1; pp. 3 - 7
Main Authors Gannot, S., Haardt, M., Kellermann, W., Willett, P.
Format Journal Article
LanguageEnglish
Published New York IEEE 01.03.2019
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
Acoustic devices
Acoustic noise
Acoustic propagation
Acoustics
Arrays
Constellations
Direction-of-arrival estimation
Electronic devices
Localization
Recording
Robot sensing systems
Signal processing
Simultaneous localization and mapping
Sound propagation
Sound sources
Sound waves
Special issues and sections
Speech processing
Underwater acoustics
Videoconferencing
Virtual reality
Wave propagation
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Summary:The fourteen papers in this special section focus on acoustic source localization (ASLT). ASLT is a well-studied topic in signal processing, but most traditional methods incorporate simplifying assumptions such as a point source, free-field propagation of the sound wave, static acoustic sources, time-invariant sensor constellations, and simple noise fields. However, these assumptions may be seriously violated in a range of emerging real-life applications. In these applications, the environment is extremely challenging, with spatially distributed sources, reverberation and reflections, complex noise fields, multiple concurrent speakers, interference signals, and time-varying positions of sources and/or sensors. Aside from classic source localization scenarios, present-day application areas include audio recording with mobile devices (e.g. cell phones, action cameras, and robots), video conferencing on the go, and recording for 3D reproduction and virtual reality. Underwater acoustic localization is another application, which is characterized by intricate propagation patterns. This special issue presents recent advances in the development of signal processing methods for localization and tracking of acoustic sources and the associated theory and applications. Addressing the challenges raised by real-life environments, novel methods are introduced representing advances in array processing, speech processing, and the use of data inference tools.
ISSN:1932-4553
1941-0484
DOI:10.1109/JSTSP.2019.2906923