Each eye captures a slightly different image due to their distinct positions. Our brain processes and unites these 2 images. How do our eyes and brain work together to create the perception of a 3-dimensional world? Binocular vision refers to the use of both eyes to view an object. Our eyes are spaced approximately 2.5 inches apart, providing slightly different perspectives of the same scene. This difference is known as binocular disparity where the brain uses the slight difference between the images seen by each eye to gauge distance of an object. When the brain processes these 2 images, it merges them into a single, 3-dimensional image, allowing us to perceive depth. Another aspect of binocular vision is convergence, the inward movement of the eyes when focusing on an object. The degree of convergence aids the brain in estimating the distance of that object.
3D vision, also known as stereopsis, is the ability to perceive the world in 3 dimensions—height, width and depth. This depth perception is essential for various everyday activities such as judging distances and grasping objects. The primary elements that contribute to 3D vision are binocular vision, visual cues (monocular and binocular) and brain processing. Visual cues interpret depth by linear perspective, relative size, interposition (overlapping of objects) and texture gradient, where fine details are more visible on closer objects and blur as objects recede into the distance. The visual cortex, located in the occipital lobe at the back of the brain, is primarily responsible for processing visual information.
To understand the science behind 3D vision, imagine you’re looking at a tree. Each eye sees the tree from a slightly different angle due to their horizontal separation. Your brain combines these 2 images, noticing the differences, and uses this information to understand how far away the tree is and its position relative to other objects. This is 3D vision in action, enabling you to perceive the tree not just as a flat image, but as a 3-dimensional object with depth.
If you’re having trouble with 3D vision, consult your eye doctor about non-invasive, non-surgical vision therapy. This evidence-based regimen, prescribed by a doctor, involves both in-office and at-home eye exercises designed to strengthen and reset the connection between your eyes and brain. For 3D vision, it helps coordinate the brain’s signals to each eye, ensuring they communicate together effectively. To schedule an appointment, contact Lafayette Eye Associates at 303-665-2068 or WEBSITE.