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Visual Rules Why are they necessary?
Because the image on the retina has just two dimensions, a retinal image allows countless interpretations of a visual object in three dimensions.
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Poverty of the stimulus
Underspecified Poverty of the stimulus …the visual system has to add information by constructing depth based on certain rules. The rules are domain-specific.
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Some rules used by the visual system.
(i) Assume that the view of the physical object producing a retinal image is a generic view. (ii) Always assume that a straight line in a two-dimensional image is a straight line in three dimensions. (iii) If two lines end at a point in the two-dimensional retinal image, then assume that they also end at a point in three dimensions.
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The third figure no longer has three straight lines spanning its vertices. Instead, we always have three lines meeting at a point. The configuration of lines forms Y-junctions as well as arrow-junctions (an example of a Y-junction is indexed in red, and an arrow- junction in blue).
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Visual rules are needed by the brain because the stimulus
on the retina is always in two dimensions. The visual system needs to infer the third dimension using rules.
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Wavy Lines From D. Hoffmann
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From D. Hoffmann
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Linguistic rules are needed by the brain because grammar cannot be extracted directly from the structure of sentences. I mailed the parcel to Anna. I mailed Anna the parcel. I mailed the parcel to Nanaimo I mailed Nanaimo the parcel. ** Assume: (i) Send — Change location — Anna/Nanaimo (ii) Send — Change possession — Ann only I mailed the parcel to Anna. (Change location). I mailed Anna the parcel. (Change possession) I mailed the parcel to Nanaimo. (Change location). I mailed Nanaimo the parcel. ** (Change possession)
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Helmholtz’s sign theory.
There is no simple resemblance between the neural events that give rise to sensations and physical objects in the world. Just as the label for an object is a sign that does not resemble the object itself, the correspondence between physical objects and the neural signals they evoke is symbolic.
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According to Helmholtz’s sign theory, we develop an understanding of the correspondence between physical objects and neural signals by learning about the contingencies between the actions we carry out and their perceptual consequences. ?????????????????????
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The importance of movement and the consequences of movement.
It is easy to see that by moving our fingers over an object, we can learn the sequences in which impressions of it present themselves and that these sequences are unchanging, regardless which finger we use. It is thus that our knowledge of the spatial arrangement of objects is attained. Judgments concerning their size result from observations of the congruence of our hand with parts or points of an object's surface, or from the congruence of the retina with parts or points of the retinal image. A strange consequence, characteristic of the ideas in the minds of individuals with at least some experience, follows from the fact that the perceived spatial ordering of things originates in the sequences in which the qualities of sensations are presented by our moving sense organs.
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A crucial difference between Descartes’ sign theory and Helmholtz’s theory is that Helmholtz argued that our construction of objects from neural signals is learned through experience; we neither have an innately specified representation of space, nor of objects. According to Helmholtz’s sign theory, we develop an understanding of the correspondence between physical objects and neural signals by learning about the contingencies between the actions we carry out and their perceptual consequences.
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Domain-specific versus Modality-specific
The sequence of events that occurs as a result of our movements usually remains the same regardless of the sense organ responsible. This common experience of the contingencies between actions and their perceptual consequences in different sensory systems provides the foundations that allow us to acquire the unconscious principles that generate three dimensional representations. Space is conceptualized by Helmholtz as a perceptual domain that integrates a number of different modalities. Domain-specific versus Modality-specific
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Domain Specific Modality Specific Vision Proprioception Space Perception Audition Touch Different Sensory Modalities
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The triangle is not actually there!
What perceptual rules give rise to the “white triangle”?
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Is the rule Gestalt ‘symmetry’?
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These black blobs represent
asymmetric shapes These curved crosses are symmetric
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Is the rule Gestalt ‘symmetry’?
No! Is the rule Gestalt ‘symmetry’?
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Simultaneous brightness contrast (SBC)
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Is the rule SBC?
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The figure on the right has more black line segments
The figure on the right has more black line segments. SBC predicts that this figure should have the brightest subjective square. The prediction is false.
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Simultaneous brightness contrast (SBC)
The figure on the left has the most black. SBC predicts that this figure should show the brightest subjective square. Simultaneous brightness contrast (SBC) No!
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“...all good subjective figures appear to have inducing elements with abrupt changes in the slope of their outer boundaries”. Thomas Shipley and Phillip Kellman
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This edge belongs to the shape of the
This edge belongs to the curved black line with two parallel edges. Parallel edges Edges are not parallel This edge belongs to the shape of the occluding ellipse
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Rule Construct an (illusory) contour when the inner and outer edges of an inducing element are not perceived to be part of the same object. This curved inner edge belongs to a “white ellipse” and is not likely to be a part of the black jagged element This curved inner edge is parallel to (and so is likely to be part of) the outer curve
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