Microphone array signal processing for robot audition. Löllmann, H. W., Moore, A. H., Naylor, P. A., Rafaely, B., Horaud, R., Mazel, A., & Kellermann, W. In HSCMA, pages 51–55, March, 2017. doi abstract bibtex Robot audition for humanoid robots interacting naturally with humans in an unconstrained real-world environment is a hitherto unsolved challenge. The recorded microphone signals are usually distorted by background and interfering noise sources (speakers) as well as room reverberation. In addition, the movements of a robot and its actuators cause ego-noise which degrades the recorded signals significantly. The movement of the robot body and its head also complicates the detection and tracking of the desired, possibly moving, sound sources of interest. This paper presents an overview of the concepts in microphone array processing for robot audition and some recent achievements.
@inproceedings{Lollmann2017,
title = {Microphone array signal processing for robot audition},
doi = {10.1109/HSCMA.2017.7895560},
abstract = {Robot audition for humanoid robots interacting naturally with humans in an unconstrained real-world environment is a hitherto unsolved challenge. The recorded microphone signals are usually distorted by background and interfering noise sources (speakers) as well as room reverberation. In addition, the movements of a robot and its actuators cause ego-noise which degrades the recorded signals significantly. The movement of the robot body and its head also complicates the detection and tracking of the desired, possibly moving, sound sources of interest. This paper presents an overview of the concepts in microphone array processing for robot audition and some recent achievements.},
booktitle = {{HSCMA}},
author = {Löllmann, H. W. and Moore, A. H. and Naylor, P. A. and Rafaely, B. and Horaud, R. and Mazel, A. and Kellermann, W.},
month = mar,
year = {2017},
pages = {51--55},
}
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