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Visual detection of 3D mirror-symmetry and 3D rotational-symmetry

Tadamasa Sawada, Maddex Farshchi

2022Visual Cognition12 citationsDOI

Abstract

Detecting 3D symmetry is important for the human visual system because many objects in our everyday life are 3D symmetrical. Many are 3D mirror-symmetrical and others are 3D rotational-symmetrical. But note that their retinal images are 2D symmetrical only in degenerate views. It has been suggested that a human observer can detect 3D mirror-symmetry even from a 2D retinal image of a 3D mirror-symmetrical pair of contours. There are model-based invariants of the 3D mirror-symmetrical pair of contours in the retinal image and there are additional invariant features when the contours are individually planar. There are also model-based invariants of a 3D rotational-symmetrical pair of contours. These invariant features of 3D mirror-symmetry and rotational-symmetry are analogous to one another but the features of 3D rotational-symmetry are computationally more difficult than the features of 3D mirror-symmetry. Experiment 1 showed that only 3D mirror-symmetry could be detected reliably while the detection of 3D rotational-symmetry was close to chance-level. Experiment 2 showed that the detection of 3D mirror-symmetry is partly based on the model-based invariants of 3D mirror-symmetry and the planarity of the contours. These results show that the visual system has evolved to favour the perception of 3D mirror-symmetry.

Topics & Concepts

Rotational symmetryMirror symmetrySymmetry (geometry)PhysicsReflection symmetryInvariant (physics)Degenerate energy levelsMirror imageGeometryOpticsMathematicsQuantum mechanicsMechanicsVisual perception and processing mechanismsFace Recognition and PerceptionRetinal Imaging and Analysis
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