Despite advances in visual technology that let machines emulate a vast degree of human brain function, one thing that mechanical instruments have yet to master is depth perception. Even with advanced ...

Depth perception can be achieved by a variety of 3D sensors ranging from stereo vision with cameras to lidar and ToF sensors, each with its own strengths and weaknesses. While several off-the-shelf ...

Stereo camera use case with autonomous mobile robots. Source: OTTO and Gideon Brothers. 3D sensors are a fundamental technology for measuring depth perception. These sensors can be found in several ...

FASTLane After Hours Urgent Care and Occupational Clinic can now test depth perception through the stereo vision method, according to a news release. Recognized as the standard for stereo depth ...

Stereoscopic vision, the brain’s capacity to integrate slightly disparate images from each eye, is fundamental to perceiving depth and three-dimensional structure. This capability is essential not ...

For people with misaligned or damaged eyes, depth perception is limited. Monocular depth clues like shadows, comparative size, and motion parallax do exist, but binocular vision allows for a more ...

Impaired vision is one of the most common consequences of a stroke. In rare cases, patients may even lose their ability to perceive depth. Such patients see the world around them as flat, like a ...

Contours added to only one eye's view cause both suppression of the other view and loss of perceived depth. Since piecemeal contralateral suppression may be the general rule of binocular combination, ...

Our ability to perceive the rich, three-dimensional nature of the world depends on stereopsis. It is a process by which the brain combines slightly different images from each eye (binocular disparity) ...