Clayton K., Swaminathan J., Yazdanbakhsh A., Zuk J., Patel A., and Kidd G. (2016). Executive function, visual attention and the cocktail party problem in musicians and non-musicians, PLOS ONE, Jul 6;11(7):e0157638. doi: 10.1371

Diaz-Santos M., Mauro S., Cao B., Yazdanbakhsh A., Neargarder S., and Cronin-Golomb A. (2016). Bistable perception in normal aging: perceptual reversibility and its relation to cognition. Neuropsychol Dev Cogn B Aging Neuropsychol Cogn., 26:1-20.

Zaric G., Yazdanbakhsh A., Nishina S., De Weerd P., and Watanabe T. (2015). Temporal Asynchrony between Sinusoidally Modulated Luminance and Depth, Journal of Vision, 15(15):13, 1–11

Cao B., Mingolla E., Yazdanbakhsh A. (2015). Tuning properties of MT and MSTd and divisive interactions for eye-movement compensation, PLOS ONE, 10(11): e0142964. doi:10.1371/journal. pone.0142964

Qian J. and Yazdanbakhsh A. (2015). A neural model of distance-dependent percept of object size constancy. PLOS ONE, 10(7): e0129377. doi: 10.1371/journal.pone.0129377

Diaz-Santos M, Cao B, Yazdanbakhsh A, Norton DJ, Neargarder S, Cronin-Golomb A. (2015). Perceptual, cognitive, and personality rigidity in Parkinson's disease, Neuropsychologia, 69:183-93

Diaz-Santos M, Cao B, Mauro SA, Yazdanbakhsh A, Neargarder S, Cronin-Golomb A. (2015). Effect of Visual Cues on the Resolution of Perceptual Ambiguity in Parkinson's Disease and Normal Aging, Journal of the International Neuropsychological Society, 21: 1–10

Layton OW., and Yazdanbakhsh A. (2014). A neural model of border-ownership from kinetic occlusion, Vision Research, 106: 64-80

Layton OW., Mingolla E., and Yazdanbakhsh A. (2014). Dynamics of multi-scale shape integration and detection in the primate ventral stream, Frontiers in Psychology, 5 (972): 1-20

Leveille J., Myers E., and Yazdanbakhsh A. (2014). Object-centered reference frames in depth as revealed by induced motion, Journal of Vision, 14(3):15, 1–11

Sherbakov LO., and Yazdanbakhsh A. (2013). Multiscale sampling model for motion integration, Journal of Vision, 13(11):18, 1–14

Wurbs J., Mingolla E., and Yazdanbakhsh A. (2013). Modeling a space-variant cortical representation for apparent motion, Journal of Vision, 13(10): 2, 1–17

Cao B., Mingolla, E., and Yazdanbakhsh A. (2012). A computational study of brightness-related responses in visual cortex, Journal of Vision, 13(1): 8, 1–15

Layton OW., Mingolla, E., and Yazdanbakhsh A. (2012). Dynamic coding of border-ownership in visual cortex, Journal of Vision, 12(13):8, 1–21

Gori, S., Giora, E., Yazdanbakhsh, A., & Mingolla, E. (2012). The novelty of Grating Illusion, Neural Networks, doi:10.1016/j.neunet.2012.07.008

Yazdanbakhsh A. and Gori S. (2011). Mathematical analysis of the Accordion Grating illusion: A differential geometry approach to introduce the 3D aperture problem, Neural Networks, 24(2011): 1093-1101

Gori S., Giora E., Yazdanbakhsh A., and Mingolla E. (2011). A new motion illusion based on competition between two kinds of motion processing units: The Accordion Grating, Neural Networks, 24(2011): 1082-1092

Grossberg S., Srinivasan K., and Yazdanbakhsh A. (2011). On the road to invariant object recognition: How cortical area V2 transforms absolute to relative disparity during 3D vision, Neural Networks, 24(7): 686-92


Cao B., Yazdanbakhsh A., Mingolla E. (2011). The effect of contrast intensity and polarity in the achromatic watercolor effect, Journal of Vision, 11(3):18, 1–8


Livitz G., Yazdanbakhsh A., Eskew RT., and Mingolla E. (2011). Perceiving Opponent Hues in Color Induction Displays, Seeing and Perceiving, 24: 1–17


Leveille J., Yazdanbakhsh A. (2010). Speed, more than depth, determines the strength of induced motion, Journal of Vision, 10(6):10, 1-9


Li A., Tavantzis MJ., and Yazdanbakhsh A. (2009). Lightness of Munker-White illusion and Simultaneous-Contrast illusion: Establishing an ordinal lightness relation among minimum and split-frame presentations, Review of Psychology, 16(1): 3-8


Grossberg S., Yazdanbakhsh A., Cao Y., and Swaminathan G. (2008). How does binocular rivalry emerge from cortical mechanisms of 3-D vision? Vision Research, 48: 2232–2250


Yazdanbakhsh A. and Gori, S. (2008) A new psychophysical estimation of the receptive field size, Neuroscience Letters, 438(2): 246-251.


Gori, S. and A. Yazdanbakhsh (2008) The Riddle of the Rotating Tilted Lines Illusion. Perception, 37(4): 631-635.


Neumann, H., A. Yazdanbakhsh, and Mingolla (2007). "Seeing surfaces: The brains vision of the world." Physics of Life reviews 4: 189-222.


Nishina, S., A. Yazdanbakhsh, et al. (2007). "Depth propagation across an illusory surface." J Opt Soc Am A Opt Image Sci Vis 24(4): 905-10.


Yazdanbakhsh, A. and M. S. Livingstone (2006). "End stopping in V1 is sensitive to contrast." Nature Neurosci 9(5): p.697-702.


Yazdanbakhsh A. and M Livingstone, (2006) Contrast-sign selectivity of End-stopping and Length-summation, Journal of Vision, 6(6): p.687  


Livingstone M., A Yazdanbakhsh (2006) A fresh look at receptive-field size and illusory contour detection. Journal of vision 6(6): p.686


Yazdanbakhsh, A. and S. Grossberg, (2005) Laminar cortical dynamics of binocular rivalry. Journal of Vision, 5(8): p.1046


Yazdanbakhsh, A. and S. Grossberg, Fast synchronization of perceptual grouping in laminar visual cortical circuits. Neural Netw, 2004. 17(5-6): p. 707


Yazdanbakhsh, A. and T. Watanabe, Asymmetry between horizontal and vertical illusory lines in determining the depth of their embedded surface. Vision Res, 2004. 44(22): p. 2621


Grossberg, S. and A. Yazdanbakhsh, Laminar cortical dynamics of 3D surface perception: stratification, transparency, and neon color spreading. Vision Res, 2005. 45(13): p. 1725


Yazdanbakhsh, A. and T. Watanabe, Horizontal and vertical illusory lines are different in determining the depth of their embedded surface. Journal of Vision, 2004. 4(8): p. 476


Grossberg and Yazdanbakhsh, Laminar cortical dynamics of 3-D surface stratification, transparency, and neon spreading. Journal of Vision, 2003. 3(9): p. 247


Conway BR , Kitaoka A, Yazdanbakhsh A, Pack CC, Livingstone MS, Neural basis for a powerful static motion illusion. J Neurosci, 2005. 25(23): p. 5651


Yazdanbakhsh and Grossberg, How does perceptual grouping synchronize quickly under realistic neural constraints? Journal of Vision, 2003. 3(9): p. 757


Yazdanbakhsh, A., et al., Munker-White-like illusions without T-junctions. Perception, 2002. 31(6): p. 711


Yazdanbakhsh, A., et al., New attractor states for synchronous activity in synfire chains with excitatory and inhibitory coupling. Biol Cybern, 2002. 86(5): p. 367


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