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DEPTH AND SIZE PERCEPTION. Problems for Perceiving Depth and Size Oculomotor Cues Monocular Cues Binocular Disparity Size Constancy. Problems for Depth and Size Perception. The proximal stimulus is 2d, but the distal stimulus is 3d Size of the image is dependent on distance.
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DEPTH AND SIZE PERCEPTION • Problems for Perceiving Depth and Size • Oculomotor Cues • Monocular Cues • Binocular Disparity • Size Constancy
Problems for Depth and Size Perception • The proximal stimulus is 2d, but the distal stimulus is 3d • Size of the image is dependent on distance
Oculomotor Cues • Information about eye position and eye muscles
Accommodation • lenses are curved more to focus on closer objects • not useful for distances more than 10 feet
Convergence • eyes rotate inwards to focus on near objects • not useful for distances more than 10 feet
Pictorial Monocular Cues • occlusion - partly covered objects perceived as more distant • relative size - larger objects perceived as closer • familiar size - objects known to be larger are perceived as farther away than objects known to be smaller
Pictorial Monocular Cues • relative height - higher objects perceived as more distant • linear perspective - parallel lines converge with more distance
Pictorial Monocular Cues • texture gradient - finer textures perceived as more distant • shadows - shaded areas perceived as further from light source • atmospheric perspective - more distant objects appear blurred and bluish
Movement-Produced Monocular Cues • movement parallax - closer objects move faster and in the opposite direction • deletion and accretion - covering and uncovering of objects
Binocular Disparity • Retinal images are different because the eyes are separated • The closer the object, the greater the binocular disparity
Binocular Disparity • Horopter - imaginary circle on which objects are focused at the same points on both retinas • Angle of disparity - difference in location of points on the two retinas; increases with distance from the horopter
Binocular Disparity • Crossed disparity - for objects in front of the horopter, the images move out toward the sides of the retinas • Uncrossed disparity - for objects behind the horopter, the images move inward on the retinas
Size Constancy • The size of an object is perceived as constant even when the size of the retinal image changes • size-distance scaling - perceived size is based on retinal size and perceived distance
Emmert’s Law • The more distant an afterimage appears to be, the larger it will seem • S = K(RxD) S - apparent size K - constant R - retinal image size D - perceived distance