RT Journal Article SR Electronic T1 The rhythms of predictive coding: pre-stimulus phase modulates the influence of shape perception on luminance judgments JF bioRxiv FD Cold Spring Harbor Laboratory SP 061309 DO 10.1101/061309 A1 Biao Han A1 Rufin VanRullen YR 2016 UL http://biorxiv.org/content/early/2016/06/29/061309.abstract AB Predictive coding is an influential model emphasizing interactions between feedforward and feedback signals. Here, we investigated its temporal dynamics. Two gray disks with different versions of the same stimulus, one enabling predictive feedback (a 3D-shape) and one impeding it (random-lines), were simultaneously presented on the left and right of fixation. Human subjects judged the luminance of the two disks while EEG was recorded. Independently of the spatial response (left/right), we found that the choice of 3D-shape or random-lines as the brighter disk (our measure of post-stimulus predictive coding efficiency on each trial) fluctuated along with the pre-stimulus phase of two spontaneous oscillations: a ~5Hz oscillation in contralateral frontal electrodes and a ~16Hz oscillation in contralateral occipital electrodes. This pattern of results demonstrates that predictive coding is a rhythmic process, and suggests that it could take advantage of faster oscillations in low-level areas and slower oscillations in high-level areas.