LAUSR

ABSTRACT Recording direct neural activity when periodically inserting exemplars of a particular category in a rapid visual stream of other objects offers an objective and efficient way to quantify perceptual categorization and characterize its spatiotemporal dynamics. However, since periodicity entails predictability, perceptual categorization processes identified within this framework may be partly generated or modulated by temporal expectations. Here we present a stringent test of the hypothesis that temporal predictability generates or modulates category‐selective neural processes as measured in a rapid periodic visual stimulation stream. In Experiment 1, we compare neurophysiological responses to periodic and nonperiodic (i.e., unpredictable) variable face stimuli in a fast (12 Hz) visual stream of nonface objects. In Experiment 2, we assess potential responses to rare (10%) omissions of periodic face events (i.e., violations of periodicity) in the same fast visual stream. Overall, our observations indicate that category(face)‐selective processes elicited in a fast periodic stream of visual objects are immune to temporal predictability. These observations do not support a predictive coding framework interpretation of category‐change detection in the human brain and have important implications for understanding automatic human perceptual categorization in a rapidly changing (i.e., dynamic) visual scene. HIGHLIGHTSFaces appear at predictable or unpredictable intervals in a continuous stream of objects.Face‐selective EEG activity is not sensitive to temporal predictability of faces.Violations of periodicity after entrainment do not generate a detectable response.Periodicity does not drive the category‐selective response in fast visual streams.