Depth Perception

Retinal disparity refers to the small difference between the images projected on the two retinas when looking at an object or scene. This slight difference or disparity in retinal images serves as a binocular cue for the perception of depth. Retinal disparity is produced in humans (and in most higher vertebrates with two frontally directed eyes) by the separation of the eyes which causes the eyes to have different angles of objects or scenes. It is the foundation of stereoscopic vision.

Stereoscopic vision refers to the unified three-dimensional view of objects produced when the two different images are fused into one (binocular fusion). We still do not fully understand the mechanisms behind stereopsis but there is evidence that certain cells in some areas of the brain responsible for vision are specifically responsive to the specific type of retinal disparity involving slight horizontal differences in the two retinal images. This indicates that there may be other functionally specific cells in the brain that aid depth perception. In sum, it seems that we use numerous visual depth cues, binocular vision, and functionally specific cells in the nervous system to make accurate depth judgements.