Neurons in inferior temporal cortex are sensitive to motion trajectory during degraded object recognition

Abstract

AbstractOur brains continuously acquire sensory information and make judgments even when visual information is limited. In some circumstances, an ambiguous object can be recognized from how it moves, such as an animal hopping or a plane flying overhead. Yet it remains unclear how movement is processed by brain areas involved in visual object recognition. Here we investigate whether inferior temporal cortex, an area traditionally known for shape processing, has access to motion information during degraded shape recognition. We developed a matching task that required monkeys to recognize moving shapes with variable levels of shape degradation. Neural recordings in area IT showed that, surprisingly, some IT neurons preferred blurry shapes over clear ones. Further, many of the neurons exhibited motion sensitivity at different times during the presentation of the blurry target. Population decoding analyses showed that motion pattern could be decoded from IT neuron pseudo-populations. Contrary to previous findings, these results suggest that neurons in IT can integrate visual motion and shape information, particularly when shape information is degraded, in a way that has been previously overlooked. Our results highlight the importance of using challenging multi-feature recognition tasks to understand the role of area IT in naturalistic visual object recognition. (Word count: 199)