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Simon, Shamma Article Featured in PLoS Biology

Simon, Shamma Article Featured in PLoS Biology

(A) Normalized neural response to target rhythm, and behavioral performance, as a function of time in target task, averaged over participants. Error bars represent standard error.  (B) Correlation of behavioral and neural responses as a function of time. The ratio of the neural to behavioral response trends as a function of time, interpreted as a slope angle, is averaged across participants, yielding a mean slope angle of 34.3° (yellow line). (Source: PLoS Biology)
(A) Normalized neural response to target rhythm, and behavioral performance, as a function of time in target task, averaged over participants. Error bars represent standard error. (B) Correlation of behavioral and neural responses as a function of time. The ratio of the neural to behavioral response trends as a function of time, interpreted as a slope angle, is averaged across participants, yielding a mean slope angle of 34.3° (yellow line). (Source: PLoS Biology)

Associate Professor Jonathan Z. Simon (ECE/ISR) is the lead author of an article in the latest issue of PLoS (Public Library of Science) Biology, titled "Interaction between attention and bottom-up saliency mediates the representation of foreground and background in an auditory scene." PLoS Biology is a prestigious open-access scientific journal.

Simon's co-authors are Professor Shihab Shamma (ECE/ISR); Mounya Elhilali, a 2004 ECE Ph.D. advised by Dr. Shamma and a former postdoc, now on the ECE faculty at Johns Hopkins University; and Juanjuan Xiang, a 2008 ECE Ph.D. advised by Dr. Simon. Xiang is now employed by Starkey Laboratories in Minnesota.

The paper focuses on attention, the cognitive process underlying the ability to focus on specific aspects of the environment while ignoring others. By its very definition, attention plays a key role in differentiating foreground (the object of attention) from unattended clutter, or background. The authors investigate the neural basis of this phenomenon by engaging listeners to attend to different components of a complex acoustic scene. The participants' neural responses are recorded using the technique of magnetoencephalography (MEG).

The experimental findings reveal that auditory attention strongly modulates the sustained neural representation of the target signals in the direction of boosting foreground perception. This enhancement originates in auditory cortex, and occurs exclusively at the frequency of the target rhythm. The results show a strong interaction between the neural representation of the attended target with the behavioral task demands, the bottom-up saliency of the target, and its perceptual detectability over time.

July 15, 2009


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