Motion perception is a key visual modality implicated in a wide range of critical functional roles. In addition to our ability to perceive moving objects, motion processing is involved in guiding locomotion, extracting object shape, figure‐ground segregation, capturing attention, and interpreting actions of our conspecifics. Here, we review advancements in our understanding of visual motion perception. We begin by describing the basic properties of motion, along with the computational challenges underlying detection and integration of motion signals. Next, we review more complex motion processes, discussing global motion perception, higher‐order motion, motion adaptation, motion in three dimensions, and biological motion. An important focus of this chapter is on interactions between motion perception and other sensory and cognitive modalities, including position, learning, attention, awareness, working memory, and multisensory processing. We also review notable examples of atypical motion processing in aging, cortical blindness, akinetopsia, amblyopia, schizophrenia, and autism spectrum disorder. For these topics, we cover key evidence from psychophysics, neurophysiology, neuroimaging, and computational modeling with an aim to provide a better understanding of the mechanisms that underlie our remarkable ability to take advantage of motion signals in the world. Finally, we highlight potentially interesting future directions in motion research.