Ming Meng

Assistant Professor of Psychological and Brain Sciences

My work investigates neural coding of complex visual information. Human face perception is of special interest to me because faces convey critical social and emotional signals and because our relatively advanced understanding of face perception mechanisms makes face perception a prime window for addressing issues related to visual coding, more broadly. My lab combines techniques drawn from the domains of psychophysics, functional brain imaging, and machine learning. Results from my lab have yielded insights regarding the nature of visual processing that contributes to our impressive face categorization abilities, the corresponding cortical substrates, and the dynamics of information flow between cortical regions. The overall picture emerging from this work shows the selective, constructive, and dynamic nature of neural coding for visual information.

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446 Moore Hall
HB 6207
Center for Social Brain Sciences
Psychological and Brain Sciences
B.S. University of Science and Technology of China
M.S. Graduate School of USTC
M.A. Princeton University
Ph.D. Princeton University

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Selected Publications

Guo, B., & Meng, M. (in press). The encoding of category-specific versus nonspecific information in human inferior temporal cortex. NeuroImage.

Schlegel, A., Alexander, P., Fogelson, S.V., Li, X., Lu, Z., Kohler, P.J., Riley, E., Tse, P.U., & Meng, M. (2015). The artist emerges: Visual art learning alters neural structure and function. NeuroImage, 105, 440-51.

Liu, J. V., Kobylarz, E. J., Darcey, T. M., Lu, Z., Wu, Y., Meng, M., & Jobst, B. C. (2014). Improved mapping of interictal epileptiform discharges with EEG-fMRI and voxel-wise functional connectivity analysis. Epilepsia, 55(9), 1380-8.

Song, K., Meng, M., Chen, L., Zhou, K., & Luo, H. (2014). Behavioral oscillations in attention: rhythmic alpha pulses mediated through theta band. Journal of Neuroscience, 34, 4837-44.

Pallett, P. & Meng, M. (2013). Contrast-negation differentiates visual pathways underlying dynamic and invariant facial processing. Journal of Vision, 13(14):13, 1-18.

Kohler, P.J., Fogelson, S.V., Reavis, E.A., Meng, M., Guntupalli, J.S., Hanke, M., Halchenko, Y.O., Connolly, A.C., Haxby, J.V., & Tse, P.U. (2013). Pattern classification precedes regional-average hemodynamic response in early visual cortex. NeuroImage, 78, 249-260.

Meng, M., Cherian, T., Singal, G., & Sinha, P. (2012). Lateralization of face processing in the human brain. Proceedings of the Royal Society B, 279, 2052-61

Gorlin, S., Meng, M., Sharma, J., Sugihara, H., Sur, M., & Sinha, P. (2012). Imaging prior information in the brain. Proceedings of the National Academy of Sciences, USA, 109, 7935-40. 

Sinha, P. & Meng, M. (2012). Superimposed hemifields in primary visual cortex of achiasmic individuals. Neuron, 75(3), 353-355.

Graham, D. J. & Meng, M. (2011). Artistic representations: Clues to efficient coding in human vision. Visual Neuroscience, 28(4), 371-379.

Graham, D. J. & Meng, M. (2011). Altered spatial frequency content in paintings by artists with schizophrenia. i-Perception, 2(1), 1–9.

Meng, M. & Potter, M.C. (2011). An attentional blink for nontargets? Attention, Perception, & Psychophysics, 73(2), 440-6.

Gilad, S.*, Meng, M.*, & Sinha, P. (2009). Role of ordinal contrast relationships in face encoding. Proceedings of the National Academy of Sciences, USA, 106(13), 5353-58.  *Both authors contributed equally.

Meng, M. & Potter, M.C. (2008). Detecting and remembering pictures with and without visual noise. Journal of Vision, 8(9):7, 1-10.

Meng, M., Ferneyhough, E., & Tong, F. (2007). Dynamics of perceptual filling-in of visual phantoms revealed by binocular rivalry. Journal of Vision, 7(13):8, 1-15.

Meng, M., Remus, D.A., & Tong, F. (2005). Filling-in of visual phantoms in the human brain. Nature Neuroscience, 8(9), 1248-54.

Meng, M. & Tong, F. (2004). Can attention bias bistable perception? Differences between binocular rivalry and ambiguous figures. Journal of Vision, 4(7), 539-551.

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Works in Progress

Dynamic coding in face perception

Neural mechanisms underlying categorical perception

Development of face processing