Spatial Vision: Neural mechanisms

Poster Session: Sunday, May 21, 2023, 8:30 am – 12:30 pm, Pavilion

Abstract# 

Poster Title

First Author

33.448

Pupil-linked arousal modulates precision of representation in cortex

Geurts, Laura

33.449

Spatial Tuning of Alpha Oscillations in Human Visual Cortex

Yuasa, Kenichi

33.450

Anodal tDCS alters appearance

Hong, Sang Wook

33.451

Improving the reliability and accuracy of population receptive field measures using a ‘log-bar' stimulus

Chang, Kelly

33.452

Evidence for high-level processing in a Ponzo-like size illusion

Altan, Ecem

33.453

Simple, automatized and reproducible pRF analysis

Linhardt, David

33.454

Orientation-tuned normalization modulates the gain of visuocortical contrast responses in humans

Klimova, Michaela

33.455

Characterizing the relationship between population spatial frequency tuning and receptive field size

Wiecek, Emily

33.456

Comparison of the visual discharge properties of primate superior colliculus and primary visual cortex neurons

Yu, Yue

33.457

Larger area size, not increased number, better explains expansion of human visual cortex

Meyer, Emily

33.458

Compressive spatiotemporal summation predicts simultaneous suppression in human visual cortex

Kupers, Eline R

33.459

The impact of noise correlations on the information contained in visual cortical activity

Cooke, James R.H.

33.460

Strong radial bias, but no evidence of oblique effect from high-resolution data in primary visual cortex

Chen, Qi

33.461

Retinotopic connectivity maps are robust to large eye movements and optical blur

Schwarzkopf, D. Samuel

33.462

Population receptive field properties change dynamically within milliseconds

Eickhoff, Katharina

33.463

Laplacian reference is optimal for steady-state visual evoked potentials

Zhang, Yuan