When viewing moving object through small opening, motion direction can be ambiguous {aperture problem}, because moving spot or two on-off spots can trigger motion detectors. Are both spots in window aperture same object? Motion detectors solve the problem by finding shortest-distance motion.
When people see objects, first at one location, then very short time later at another location, and do not see object anywhere between locations, first object seems to move smoothly to where second object appears {apparent motion}|.
Moving spot triggers motion detectors for two locations.
two locations and spot
How does brain associate two locations with one spot {correspondence problem, motion}? Brain follows spot from one location to next unambiguously. Tracking moving objects requires remembering earlier features and matching with current features. Vision can try all possible matches and, through successive iterations, find matches that yield minimum total distance between presentations.
location and spot
Turning one spot on and off can trigger same motion detector. How does brain associate detector activation at different times with one spot? Brain assumes same location is same object.
processes: three-dimensional space
Motion detectors are for specific locations, distances, object sizes, speeds, and directions. Motion-detector array represents three-dimensional space. Space points have spot-size motion detectors.
processes: speed
Brain action pathway is faster than object-recognition pathway. Brain calculates eye movements faster than voluntary movements.
constraints: continuity constraint
Adjacent points not at edges are at same distance from eye {continuity constraint, vision}.
constraints: uniqueness constraint
Scene features land on one retinal location {uniqueness constraint, vision}.
constraints: spatial frequency
Scene features have different left-retina and right-retina positions. Retina can use low resolution, with low spatial frequency, to analyze big regions and then use higher and higher resolutions.
If an image or light spot appears on a screen and then a second image appears 0.06 seconds later at a randomly different location, people perceive motion from first location to second location {phi phenomenon}. If an image or light spot blinks on and off slowly and then a second image appears at a different location, people see motion. If a green spot blinks on and off slowly and then a red spot appears at a different location, people see motion, and dot appears to change color halfway between locations.
1-Consciousness-Sense-Vision-Physiology-Motion
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Date Modified: 2022.0225