@inproceedings{Elhilali2006ICASSP,
<br>abstract = {Though seemingly effortless, our auditory system engages in complex processes and transformations which enable us to segregate speech and other sounds in cocktail party settings. This paper presents a computational approach to modelling monaural auditory scene analysis, where we attempt to ac- count for perceptual and neuronal findings of receptive field selectivity and adaptation in the auditory cortex. The model introduces a biologically-inspired scheme of dynamic segre- gation of auditory streams, based on unsupervised clustering and the statistical theory of Kalman prediction. Our method demonstrates its ability to emulate known percepts reported by human subjects in auditory streaming and sound organiza- tion tests, and yields successful results in segregating speech from concurrent speaker and music interferences.},
<br>author = {Elhilali, M. and Shamma, S.},
<br>booktitle = {IEEE International Conference on Acoustics Speed and Signal Processing Proceedings},
<br>doi = {10.1109/ICASSP.2006.1661356},
<br>isbn = {1-4244-0469-X},
<br>issn = {1520-6149},
<br>pages = {V--637--V--640},
<br>title = {{A Biologically-Inspired Approach to the Cocktail Party Problem}},
<br>url = {http://ieeexplore.ieee.org/document/1661356/},
<br>volume = {5},
<br>year = {2006}
<br>}