symmetry definitions and perception of symmetry computer vision seminar – symmetry presented by:...
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Symmetry Definitions and Perception of Symmetry
Computer Vision Seminar – Symmetry Presented by:
Dado OfirHaifa university
Symmetry - OutLine
•Definitions.
•Motivation.
•Type of symmetry.
•Symmetry groups.
•Perception of Symmetry.
•Summary.
Symmetry
•Definitions:•The concise Oxford Dictionary says
"1(.Beauty resulting from )right proportion between the parts of the body or any whole, balance, harmony, keeping. 2.
Such structure as allows of an objects being divided by a point or a line or plane or radiating lines or planes into
two or more parts exactly similar in size and shape and in position relative to the dividing point, ect. repetition of
exactly similar parts facing each other or a centre"....,
Type of symmetry - Rotation
•A figure has rotational symmetry when it can be rotated less than 360° around a central point, or
point of rotation and still match the original figure
•Example :
Type of symmetry - Translation
•Move it without rotating or reflecting it
•Every translation has a direction and a distance
Before translation
After translation
Type of symmetry - Reflection
• Reflection symmetry is sometimes called "mirror" or "flip" symmetry.
It's easy to see why A butterfly )see below( may have reflection symmetry
because one side is a mirror image of the other.
• Notice that a vertical line down the center of the butterfly's body
serves as what is called the "line of symmetry."
Type of symmetry - Glide Reflection
•Involves more than one step•Combination of a reflection and a
translation along the direction of the mirror line
Symmetry groups- linear groups
•Example dyhedral group:
This is a D1 group. All dihedral groups contain a reflection. This is a D3 group. It contains three reflections and a rotation of order 3. It sort of looks like a hubcap, doesn't it? Some people call these wheel patterns.
This is a D12. Patterns like these often appear in stained glass windows. This group contains 12 reflections and a rotation of order 12
Symmetry groups- linear groups
•Example Cyclic group:
This is C1. No reflections and no rotations other than the trivial rotation
This is an example of C3. It is somewhat more interesting than C1. There is a rotation of order three.
This is an example of C12
Symmetry groups- linear groups
•Perhaps the most simple example of the two groups is tripod. If we want to eliminate the
reflective symmetry , all we have to do is add a little flags on its arms.
•Frieze groups are subgroups of isometrics of Euclidian plane. They are restricted to some
obvious rules:.1Only one translation is allowed
.2Only two reflections are allowed – one to the line in the center of the pattern and the second vertical to
the pattern
.3Only rotations of second order are allowed
Symmetry groups- Frieze groups
Symmetry groups- Frieze groups
•Examples
This type has only a translation.
This type has a translation and a vertical mirror.
This type has a translation and a rotation.
Symmetry groups- Frieze groups
•Examples
This type has a translation and a horizontal mirror.
This type has a translation and a reflection.
Symmetry groups- Frieze groups
•Examples
This type has two vertical mirrors and a glide reflection.
This last type has two vertical mirrors and a horizontal mirror. There are also rotations in this group.
Symmetry groups- Platonic solids
•Definition:
Platonic solids are perfectly regular solids with the following conditions: all sides are equal and all angles are the same and all faces are identical. In each corner of such a solid the same number of surfaces collide. Only five Platonic solids exist: tetrahedron , hexahedron, octahedron, dodecahedron and icosahedron
Symmetry groups- Platonic solids
•The solids and their regularities were discovered by the Pythagoreans and were called originally
Pythagorean solids. The Greek philosopher Plato described the solids in detail later in his book
"Timaeus" and assigned the items to the Platonic conception of the world, hence today they are
well-known under the name "Platonic Solids ".
Symmetry groups- Platonic solids
•The tetrahedron is bounded by four equilateral triangles. It has the smallest volume for its surface and represents the property of dryness. It corresponds to fire.
•The hexahedron is bounded by six squares. The hexadedron, standing firmly on its base, corresponds to the stable earth.
Symmetry groups- Platonic solids
•The octahedron is bounded by eight equilateral triangles. It rotates freely when held by two
opposite vertices and corresponds to air.
•The dodecahedron is bounded by twelve equilateral pentagons. It corresponds to the universe because the zodiac has twelve signs corresponding to the twelve faces of the dodecahedron.
Symmetry groups- Platonic solids
•The icosahedron is bounded by twenty equilateral triangles. It has the
largest volume for its surface area and represents the property of
wetness. The icosahedron corresponds to water.
Symmetry groups- rotation groups
•Every object has its rotation symmetry. This symmetry can be defined by rotation axes and rotation operators.
Let’s understand it over an example :
Symmetry groups- rotation groups
•The prism we saw in the example can fit into the box in 6 different
ways. So, we can define our rotation axes and rotation
operators. As we can see there are 4 rotation axes and 6
operators – Ca,Cb,Cc,Cd1,Cd2,E while E is identity operator .
Symmetry groups- rotation groups
•In the same way we defined rotation for prism we can define it for each object we choose. For
example cube has 24 ways to fit a box so it’s rotation symmetry is bigger .
Perception of Symmetry- Some psychological observations
“Psychologically speaking, symmetry is not relatively superficial characteristic of pattern and
object like, say, color but that it is an essential characteristic which affects profoundly both their
immediate perception and their memorability”
(Corballis,1963; Corballis and Beale, 1976, 1983)
Perception of Symmetry- Some psychological observations
•over time there was a lot of study dealing with the perception of symmetry.
–HOWE - “the dot test”•Short exposure
•Long exposure
–Goodness and Geometricity of symmetry•HOWE,SZILAGYI and BAIRD – “ the pleasant test“
–Conduct a series of test in which the subject was requested to grade/create an object by criteria – balance, pleasingness,
goodness, simplicity, and dispersion.
–Symmetry had a direct effect on all except dispersion.
Perception of Symmetry- Some psychological observations
•SZILAGYI and BAIRD found that most of the subjects created asymmetric figure with vertical symmetry.
•GOLDMEIER – “ the deformed test” –Found that deformed object which leave the symmetry intact are
more similar to the original than minimal asymmetrically deformed object.
Perception of Symmetry- Some psychological observations
•Orientation of symmetry – explanation: In order to process it as possible, the visual apparatus
resorts to legerdemain and since no vertical symmetry in the plane of the figure is observable it resorts to an
alternative interpretation and creates a 3D figure which is symmetrical
Perception of Symmetry- Some psychological observations
•Vertical Symmetry–A collection of experiments show that vertical
symmetry is the most salient and easily perceived.•GOLDMEIER test –deformed object.
Perception of Symmetry- Some psychological observations
•Vertical Symmetry–ROYER measured RT for detection of symmetry and
found that the RT to detect vertical symmetry is faster then the RT of horizontal symmetry.
Perception of Symmetry- Some psychological observations
•The human face is approximately, symmetrical the difference are usually unnoticed.
•What happen when we mirror our face?
Original picture
Duplicate the right side
Duplicate the left side
Perception of Symmetry- Some psychological observations
–When we mirror the face we get 2 new faces one of which looks much more similar to the original face than
the other.–The two sides of the face
Perception of Symmetry- Some psychological observations
•Mental Rotation vs Template models–Template model
•For each angle of symmetry axis there is a template or a simple mechanism which detects the symmetry in a
pattern.
–Mental rotation model•A single mechanism exists which detects the symmetry
)specifically detects vertical symmetry(. All other mirror symmetries are detected by rotation- to align it symmetry
axis to the vertical axis )assumed to be linear in time ( .
Perception of Symmetry- Some psychological observations
•Support for the mental Rotation Model–CORBALLS & ROLAND
•They used a random cluster of six dots which were repeated or mirrored a round an axis –which was tilted at
0,45,90 or 135 d
•The subject were asked to detect symmetry pattern.
Perception of Symmetry- Some psychological observations
–CORBALLS & ROLAND•Result showed that shorter RT is when
Perception of Symmetry- Some psychological observations
•Physiological and anatomical support Symmetry processing
–It is well known that the human visual system is bilaterally symmetric. Does it influence visual
symmetry perception?•The coordinate system is aligned with the retinal
coordinate system.•The coordinate system is aligned with the gravitation
coordinate system.•JULESZ suggested that the underlying symmetry anatomy
of the visual system is the basis for high frequency symmetry detection .
Perception of Symmetry- Some psychological observations
•Symmetry inherent or learned?–Evolution
•Eyes location – symmetry stimulus.
•Behavioural aspects – when detecting animal face was a matter of survival.
•The natural evolve of the symmetry detection system.
•Conclusion – symmetry is unherent.
is it?
Perception of Symmetry- Some psychological observations
•Symmetry inherent or learned?–Evolution
•The mental rotation model and other experiments, show the robustness of symmetry perception and promote the
idea that learning is part of the symetry detection mechanism.
•The enatiomorphic confusions–b-d
Summary
•Symmetry is in our life.•There are 4 fundamental type of symmetry.•Symmetry group
–Linear group.–Frieze groups.–Platonic solids.–rotation groups.
•psychological observations.–Experiments.–study's.
References
•Hagit Zabrodsky Hel-Or. symmetry – a review. technical report 90-16. Hagit Zabrodsky Hel-Or. symmetry – a review. technical report 90-16. may 1990 jerusalem-umay 1990 jerusalem-u..
•Perception of Symmetry- Some psychological observations. Jan B. Perception of Symmetry- Some psychological observations. Jan B. DeregowskiDeregowski..
•““Symmetry” Hermann WeylSymmetry” Hermann Weyl •httphttp://://wwwwww..enscensc..sfusfu..caca//peoplepeople//gradgrad//brassardbrassard//personalpersonal//THESISTHESIS//
node45node45..htmlhtml •httphttp://://wwwwww--historyhistory..mcsmcs..stst--andand..acac..ukuk//~john~john//geometrygeometry//LecturesLectures//L8L8..htmlhtml•httphttp://://homehome..hccnethccnet..nlnl//jcjc..kuiperkuiper//optillusoptillus//optillusoptillus..htmhtm•httphttp://://wwwwww..educationeducation..govgov..ilil//tochniyot_limudimtochniyot_limudim//mathmath//shikufshikuf..htmhtm