Perception 2 Flashcards

Question

Light from above falls on the ____bottom/top of the retina

Answer 1

Structure in the back of the eye made of layers of neurons, forms an inverted image (because front curved part of the eye will bend the light)

Answer 2

Sensory receptors in the last layer of the retina that respond to light.

Answer 3

Photoreceptors

Answer 4

A type of photoreceptor in the retina, outside of central vision, that responds to lower light but with reduced spatial acuity and no color differentiation.

Answer 5

A type of photoreceptor, largely contained in the central fovea of the retina, that supports high spatial resolution and color vision under higher lighting conditions.

Answer 6

A depression in the center of the retina that is densely packed with cone photoreceptors and is responsible for seeing detailed properties.

Answer 7

1. Light waves enter the eye 2. Retina photoreceptors convert light to electrical activity 3. The electrical signal is sent to bipolar cells, then sent on to the ganglion cells 4. The signal exits through the optic nerve to the brain for later visual processing

Answer 8

Millions of photoreceptors in each retina converge onto 100 x fewer ganglion cells → optic nerve → brain **Input from the eyes to the brain is compressed**

Answer 9

Later visual processes will fill in some of the less detailed visual periphery with what is in the center; also fill in the blind spot

Answer 10

Ganglion cells make up the optic nerve that exits the eye (passing through the photoreceptors leaving a hole ) to the brain. At this ‘exit location’, there are no photoreceptors

Answer 11

Subcortical region of the brain that serves as something of a way-station between sensory inputs and the cortex.

Answer 12

First region of the cortex to receive visual input. Unconscious vision Visual signal is broken down into : * Edges * Angles * Color * Light

Answer 13

Interpret visual signal, assigns meaning to it, allows to see what and where ( the what and the where pathways).

Answer 14

Difficulty recognizing or perceiving one kind of visual stimulus

Answer 15

Difficulty recognizing individual faces due to FFA (fusiform face area) damagre

Answer 16

Difficulty recognizing objects

Answer 17

Region of the inferior temporal cortex that shows greater activity when people engage in a facial recognition task

Answer 18

Selectively activated when people do an object recognition task

Answer 19

No, also objects (linked to more expertise of recognition)

Answer 20

Ventral stream, from occipital to temporal lobes * Shape, size, visual details : recognize the object

Answer 21

Dorsal stream, upper occipital to parietal lobes * Location, space, movement information

Answer 22

Perception

Answer 23

Sense of smell

Answer 24

Sense of taste

Answer 25

Structures on the surface of the tongue that contain the sensory receptors for taste. On tongue, palate, pharynx, upper esophagus

Answer 26

A deep fissure that divides both the frontal and parietal lobes form the temporal lobe, part of the primary gustatory cortex

Answer 27

The first region of the cortex to receive information from the gustatory sensory system.

Answer 28

Strip of tissue in the nasal cavity that contains tens of millions of chemical sensory receptors that transduce odors before sending them to the brain

Answer 29

Olfacotry bulb

Answer 30

Amygdala, hippocampus

Answer 31

Region of the brain, located in the parietal lobe, that receives multiple sources of sensory information from across the body, including sensation of touch.

Answer 32

A spatially organized map of the human body, contained within the somatosensory cortex, that processes touch information.

Answer 33

A model of perception in which the sensory information is used to generate a mental model of the environment that is assumed to have caused the sensory stimulus.

Answer 34

A theoretical approach to perception that holds that the sensory stimuli be used to guide behavior in an action/perception loop.

Answer 35

Perception of how dark or light a surface is

Answer 36

Property of a stimulus that has alternating stable perceptual interpretations.

Answer 37

Perceptual processing that is applied generally to all stimuli and does not depend on specific knowledge of the stimulus or its category.

Answer 38

Perceptual processing that leverages prior stimulus or category specific knowledge to interpret new information

Answer 39

A perceptual phenomenon in which missing sounds are "filled in" by the brain based on knowledge of language.

Answer 40

The determination of which side of a boundary contains the shape versus the background.

Answer 41

The perception of discrete visual elements as forming a larger pattern or whole.

Answer 42

Law of similarity

Answer 43

Law of proximity

Answer 44

Tendency to group together features that form a smooth, continuous path rather than those with a sharp discontinuity.

Answer 45

A cue to depth perception based on the fact that, when moving, objects that are closer to you change their position in the visual field more quickly than those that are further away.

Answer 46

The image of the world falling on each eye is different

Answer 47

The use of binocular disparity (the fact that image falling in the two eyes is different) in perceiving depth.

Answer 48

A simple model of recognition that depends on directly matching an incoming image to an image of an object or category in order to determine whether they reach some threshold of similarity.

Answer 49

Identification

Answer 50

Classification

Answer 51

The ability for a computer to classify a broad class of different objects.

Answer 52

Scene schema

Answer 53

Visible portion of ear made up of folded cartilage; gathers and transmits sound into the ear canal. Its shape allows to direct sound into the ear canal, and amplifies sound frequencies.

Answer 54

Set of three tiny bones in the inner ear that amplifies certain frequencies and relays them to the cochlea. Order : hammer, anvil, stapes

Answer 55

Hardening of the ossicles that prevent them from sending information to the cochlea

Answer 56

Coiled, bony structure in the inner ear that is filled with fluid and contains the basilar membrane. Sound vibrations become fluid vibrations that travel as a wave through the cochlea.

Answer 57

Basilar membrane

Answer 58

Hair cells

Answer 59

Goes to the brain

Answer 60

From brain to hair cell nucleus

Answer 61

A spatial arrangement of neural structures (such as hair cells) in which locations are organized based on the frequency of sound they encode.

Answer 62

primary auditory cortex (A1)

Answer 63

Sound localisation

Answer 64

Sound properties

Answer 65

- Snakes pick up vibrations of the earth by their jawbone - Mantises detect vibrations in a groove on their thorax

Answer 66

Cartridge reads stylus vibrations and read the signal to send it to the listener as an electrical signal

Answer 67

Interaural time difference (ITD) : closer ear has burst of energy a bit earlier than the other ear (tiny difference, but the brain can capture it) Interaural level difference (ILD) : sound is more intense on one side Pinna : vertical cues

Answer 68

- 2 similar melodies = hard to distinguish them - Different pitch = can identify the other melody : the brain can segregate between the melodies

Answer 69

A: Slowly interleaved high and low tones create a single sequence with shifting pitch ranges. B: Quickly interleaved tones form two simultaneous streams, one high-pitched and one low-pitched.

Answer 70

A: Unconnected high and low tones form separate streams B: Connected high and low tones create a single, undulating auditory strea

Answer 71

Lowest frequency component (less Hz)

Answer 72

Multiples of the fundamental frequency

Answer 73

Sync is a biological mechanism that aligns behaviors ( - Neural sync when watching video clips and listening to live music - Behavioral sync occurs even without the intention - Cardiac and respiratory sync in choir singing)

Answer 74

Loudness (amplitude), pitch (frequency), and quality (complexity)

Answer 75

Superposition

Answer 76

Sound waves

Answer 77

Lengths of a wave defined as the distance between the crests of sequential waves.

Answer 78

Slower, larger

Answer 79

Frequency increases and amplitude decreases

Answer 80

Vibration that travels as a pressure wave of high and low pressure

Answer 81

Compress and expand

Answer 82

Compression

Answer 83

Rarefaction

Answer 84

Motion (not travelling molecules)

Answer 85

Compression : increase Rarefaction : decrease

Answer 86

- Information from the sensory organs (eyes) to the visual cortex -the influence of information from the external environment on perception

Answer 87

- The influence of knowledge (expectations, context and goals) on perception - Information from higher processing brain regions (prefrontal cortex or higher visual processing areas) is sent back to the sensory organs

Answer 88

Top-down processes influence bottom-up processes * We use what we know and expect to interpret sensory information, construct our reality

Answer 89

Something converging at the top : brain uses cues to assume what is there is larger (depth)

Answer 90

* The wavelengths of light that fall on our retina * Our expectation (from experience) of how objects look under contexts of illumination

Answer 91

Desirable objects appear closer, larger than less desirable objects

Answer 92

Details (opposite when bored)

Answer 93

Mechanoreceptors (in the skin) →spine → somatosensory cortex

Answer 94

It helps us know what is bad for us to eat (what is not rewarding)

Answer 95

- Mental models include sensory inputs, but also inferences, assumptions and understanding of the world (top down, what is already in our mind, can be unconscious); They are what we use to guide our behavior

Answer 96

1. Sensory input 2. Mental model 3. Perception and action

Answer 97

False, for example goals can influence them

Answer 98

Information from final stages of visual pathway processing is sent back to the visual cortex

Answer 99

- The Ponzo illusion : depth assumption - The monster illusion : depth assumption - The world is lit from above : how and what we see in an image depends upon our implicit understanding of shadows

Answer 100

Changing expectations can change our perception : hearing a different word based on the word you read while the sound does not change

Answer 101

Ambiguous visual figures that can be perceived as one of 2 objects : unclear what the figure is, and what is the background (cannot see both images at same time, but can switch between them)

Answer 102

Top down organizational principles to deal with ambiguous figures like bistable figures

Answer 103

We see a shape in terms of closed forms, and we like to see items that enclosed as whole

Answer 104

Children were more likely to see rabbits in easter, more likely to see ducks in October

Answer 105

Information form the environment does not need to be interpreted with our knowledge

Answer 106

Ecological

Answer 107

Visual signal from your current viewpoint that reaches the retina

Answer 108

Ambient optical array (AOA)

Answer 109

Discontinuity helps see edges and define objects

Answer 110

How widely light scatters off an object’s surface provides cues about the nature of the surface (what it is made of), if light scatters widely : rough surface

Answer 111

Incremental changes in texture can provide information about your movement and distance (far pattern = closer together objects )

Answer 112

Cues that indicate potential function of an object, how to interact with it (visual cues like texture, size, distance) For constructivists : use from experience and learning For direct models : use from implicit computing

Answer 113

No conscious awareness (explicit perception) of visual objects in damaged visual field (where primary visual cortex is damaged); but can still answer implicitly when asked about what is in the damaged visual field

Answer 114

Blinded visual field

Answer 115

Patients performed above chance on the forced-choice responding task for lights in the blinded area

Answer 116

Primary visual cortex

Answer 117

Damage to the dorsal where pathwa causing visual motion blindness (perceive motion as series of stationary objects)

Answer 118

Symptom of akinetopsia causing an inability reaching or pointing for objects(can be selective for certain types of movements)

Answer 119

Difficulty recognizing objects from damage to lateral occipital cortex (can be specific to visual category, e.g. face)

Answer 120

Difficulty identifying objects through sounds

Answer 121

Difficulty recognizing smells

Answer 122

- fMRI data as participants viewed "greebles" and other objects - Greebles activated FFA more than other objects (cats, household objects) - Maybe FFA just linked to visual expertise

Answer 123

- Can recognize and discriminate sheep (expertise) with very high accuracy (~90%) vs failure at face recognition; opposite of greebles study finding : selective human face processing in the brain

Answer 124

Problems assigning meaning to objects (for prosopagnosia, can’t recognize familiar famous faces; can still copy drawings

Answer 125

- A failure to recognize objects and facial expressions due to problems with perceiving the elements of the objects as a whole - Single visual feature perception (e.g., color, motion) are relatively intact

Answer 126

Perception involves processing basic visual features. Pattern recognition suggests we then add up these features and match it to existing patterns (concepts) stored in memory

Answer 127

- Visual input is broken down into individual parts (features) - Each feature is processed separately

Answer 128

Combination of features that is matched to long-term memory traces, looking for a match * The highest similarity between the probe and memory trace will determine recognition

Answer 129

Every object has a ‘template’ in long-term memory

Answer 130

Cannot explain * Identification: The ability to recognize objects with shifts in perspective * Classification: The ability to recognize new objects as members of a known category (ex. recognize new bird as a bird even without a matching template)

Answer 131

- A prototype is the average representation of an object concept * recognition is determined not by literal match, but to a prototype * A ‘good enough’ match (resemblance) leads to identification

Answer 132

Ability to name an object is faster in a consistent context

Answer 133

Semantic violation signal in the brain