photography lesson 05
TRANSCRIPT
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Lesson # 5
Visual Perception
Subject:
Photography
Faculty Name:Partha Pratim Samanta
Deviprasad Goenka Management College of Media Studies (dgmcms.org.in)
FY BA
India’s premier Media -school
+Visual Perception
This area of study focuses on perception and the general characteristics of the visual sensory system.
+What are the stages?
Reception – eye senses a stimulus
Transduction – changes it so brain can understand it
Transmission – sends it to the visual cortex
Selection – aspects selected of stimulus
Organisation – grouping of elements to form a whole
Interpretation – given meaning with the aid of psychological factors
+Reception
Electromagnetic energy (light) sensed from the environment
RODS (black and white) and CONES (C for colour) are photoreceptors that pick up the electromagnetic energy
This energy must be CHANGED for the brain to be able to interpret it…
+Transduction
The electromagnetic energy is converted, changed or ‘transduced’ into electrochemical energy.
This is the energy all neurons use.
This means that information sensed by the rods and cones can be sent as neural impulses to the visual cortex.
+Transmission
Neural impulses once triggered are sent to visual cortex of the occipital lobe
Like any neuron, the “all or none” law applies – there is no such thing as a big or small impulse. The stimulus must be ENOUGH for the threshold to be reached to make the neuron fire.
They are sent via the optic nerve.
+Selection
This is where discrimination and identification of the FEATURES of the stimulus takes place.
Feature detectors are cells that are in the retina, optic nerve and visual cortex, that respond to patterns, lines, edges and angles
Selection is also happening at a basic level in reception with rods and cones responding to different electromagnetic energy wave lengths.
+Organisation
This can only happen once the brain has received the neural impulses.
Single elements are grouped to form a whole, using perceptual principles that work like ‘rules’ of organisation.
These principles are called Gestalt principles.
+Interpretation
The ‘whole’ that has been created is given meaning.
Memory is used to compare incoming information with what is already known.
This creates a perceptual hypothesis.
Interpretation involves the brain using psychological factors in order to make sense of what it is considering.
+Absolute Threshold
The minimum amount of energy needed to detect a stimulus under ideal conditions 50% of the time.
VISION: A candle flame 50km away on a clear, cloudless night with NO light pollution (moon, other lights, cities)
+Differential Threshold
The smallest difference in the intensity of a given stimulus that a specific sense can detect 50 % of the time.
This is about DIFFERENCE in the intensity of a stimulus; there must be comparison.
If there is enough change, there will be enough stimulus for receptor cells to fire and send a message to the brain to be interpreted.
VISION: a dimmer switch does not turn a light off but changes the intensity of the light.
+Physical Structure – the Eye
+Let there be light!
Receptor cells respond to 380 nm (violet) to 760 nm (red) of the electromagnetic radiation spectrum.
This is the visible light spectrum to which humans are able to respond.
To remember the pattern of light in order, think ROYGBIV (red, orange, yellow, green, blue, indigo, violet).
+Eye structure and function
CORNEA – light enters through the cornea and is bent onto the lens.
PUPIL – light passes through the SPACE called the pupil.
IRIS – a band of muscle that contracts/expands to manage the amount of light entering the pupil and hitting the lens.
LENS – the lens bends the light more and focuses them on the retina – in particular, on the FOVEA. The lens can bulge or stretch to help the light reach the fovea.
+Eye structure and function…
RETINA – registers the electromagnetic energy, processes the incoming information and transduces the energy to a form the brain can interpret.
BLIND SPOT – where the optic nerve attaches to the retina – no photoreceptors.
PHOTORECEPTORS – 2 types:
Rods – 125 Million
Cones – 6.5 Million
+Rods VS Cones
RODS
Black and white vision
Operate well in low level light – night vision
Sensitive to brightness, darkness and movement
Mainly located in outer part of retina
Poor acuity (low sharpness and focus)
Excellent for peripheral vision rather than direct
19x the number of cones
CONES
Daytime and colour vision
Excellent visual acuity – sharp and clean images
Concentrated in the fovea
Not useful at night – can’t discriminate colours
Outnumbered by rods 19:1
+GESTALT Principles
Theory that the whole is greater than the sum of its parts – Gestalt means ‘form’ or ‘shape’.
We group individual elements of a visual stimulus into a complete form.
This allows us to perceive objects in the most simple way possible.
BOTTOM-UP = building an image from the parts into a whole
TOP-DOWN = working to move from the whole image to the parts it is assembled from
+What are the 4 Gestalt Principles?
Figure Ground
Closure
Similarity
Proximity
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We tend to separate the important aspects of the figure from the surroundings (background). We focus or give our attention to the figure.
Real or imagined contour lines separate the figure and ground
Camouflage depends on difficulties with establishing contour lines
Reversible figures change the ownership of the contour lines
Figure-Ground
+Love and Death?
+Proximity
Proximity is the grouping of elements that are close to each other to form an overall figure or pattern. Also known as ‘nearness’.
+Similarity
When the elements of a stimulus or pattern have similar features (size, shape, colour) we tend to group them together. Similarity is stronger than proximity if the two are together in a stimulus.
+ClosureWhat do we see?
We perceive an object as a whole, despite it being actually incomplete. We group the individual elements to make ‘one’ by filling in the missing contour lines so that it makes sense.
+Depth Perception
Depth cues which are internal and involve the eye and the brain and are known as primary cues.
Depth cues which are external to the body and part of the environment or pictures are known as secondary cues.
+Binocular Cues
Binocular cues are primary cues and involve the eye and its functioning.
Binocular cues ALWAYS involve BOTH eyes
Convergence
Retinal Disparity
+What do I need to know
about convergence? We use this for objects up to 6m away from our eyes.
When we view objects close to us, our eyes turn inwards or ‘converge’ so that a single image is formed on both retinas.
Changes in muscle tension are detected and interpreted by the brain and used to determine the depth and distance of an object.
Our brain detects that the closer the object, the greater the convergence.
+How does retinal disparity work?
Because our eyes are 6-7cm apart, the retinas receive slightly different images. An object must be under 10 metres away for us to use retinal disparity.
The retinal images are combined together and compared by the brain.
Any disparity or difference between the 2 images provides us with information about the depth of the object and its distance from us.
You can check this by only using one eye, in turn, to view the same object on your desk.
+Monocular Depth Cues
Accommodation:
This is a primary monocular depth cue that involves the lens of the eye changing shape. Information about how much the lens bulges or flattens is used by the brain to determine depth and distance of an object.
Object close? Lens bulges to direct the image clearly onto retina.
Object distant? Lens flattens or elongates to direct the image clearly onto retina.
+Secondary Monocular Depth Cues
Linear Perspective
Interposition
Texture Gradient
Relative size
Height in the visual field
Pictorial Cues are secondary cues, as they occur in the environment – they are NOT a function of the eyes!
+Secondary Monocular Depth Cues
Linear Perspective
Parallel lines appear to converge towards the horizon and an imaginary’ vanishing point, creating a sense of distance.
Interposition
The object that is closer obscures part of another, more distant object.
It is useful to indicate which objects are closer than others but not actual distance.
+Secondary Monocular Depth Cues
Texture gradient
The amount of detail in a scene decreases as the distance increases or moves away from the viewer.
The foreground is highly detailed and the background is less detailed and less focussed.
Relative Size
If separate objects are predicted to be the same size, then the one that appears larger, is closer.
The retinal images of the objects are different and we can only use relative size if we KNOW the size of an object to be able to compare.
+Secondary Monocular Depth Cues
Height in the
Visual field
NEVER just call this ‘height’!
If land objects appear smaller and closer to the horizon, they appear to be further away.
If air objects appear smaller and closer to the horizon, they appear to be further away.
HOWEVER – land based objects will be LOW in the visual field if close and air objects will be HIGH in the visual if close.
+Henri Cartier-Bresson
+Perceptual Constancies
These are learned visual perception principles that let us perceive or make sense of stimuli.
This means when objects change in shape, size or brightness, we still see them as being what they are – a ‘constant’ and familiar thing.
Our perception stays the same even though the retinal images may have altered; we are familiar with the objects.
+Size Constancy
We maintain an object’s perceived size even though the size of the retinal image alters due to the object’s distance from us.
If we look at a truck outside our homes, we KNOW that the truck isn’t smaller if we stand and look at it as it drives down the street. We don’t think it ‘shrinks’ as it is driving away from us.
+Brightness Constancy
We maintain the perceived brightness of an object, despite actual changes in the amount of light being received by the retina.
Because we look at objects in their immediate environment, we perceive that everything else has altered by the same amount of brightness too and so know that the brightness has remained constant.
+Shape Constancy
We maintain an object’s perceived shape even though the image cast on the retina changes if the object is observed from a different angle.
If we see a closed door, a half open door and a fully open door, we still understand that the door has a rectangular shape, even if it appears different when closed, half open and fully open.
+Orientation Constancy
This is our tendency to maintain an object’s location in ‘space’ as constant – and perceive the world as being upright and vertical.
If we hang upside down on monkey bars, we don’t believe that the world is no longer vertical and that the trees are upside down and sideways! Again, we compare and use our body’s signals to help us work out what’s going on.
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OPTICAL ILLUSIONS
OR
HOW EASY IT IS TO TRICK HUMAN BEINGS….
+How do Optical Illusions work?
A visual stimulus misleads our perception (or meaning-making) of that stimulus.
This happens because we APPLY perceptual constancies to what we are seeing – they are our RULES.
We make a false judgement because we misjudge length, position, speed, direction or curvature.
Is this picture REALLY moving?