Object perception - VS

Question 1

which area in the brain of a monkey is all purpose simple form & all object processors found

Answer 1

V4/IOT (inferior occipital temporal cortex)

Question 2

which area in the human brain is all purpose simple form & all object processors found

Answer 2

LOC (lateral occipital cortex) area

Question 3

in both monkey and human brain, where are more specialised object processors found for recognising faces and buildings

Answer 3

IT (inferior temporal), fusiform gyrus, several areas

Question 4

in both monkey and human brain, where are more specialised object processors found for spatial scenes/places and navigating through them

Answer 4

IT (inferior temporal)/ParaHippocampal gyrus

Question 5

which serial processing is used to rebuild the object image

Answer 5

from: V1/V2 - V4 - IOT - IT (where real objects are encoded)

Question 6

what are the form processing cells in area v1 & v2 and what do they respond to

Answer 6

orientation selective

respond to lines & edges

Question 7

where are the form processing cells located in area v1 & v2

Answer 7

in interblob zones of layers 2-4A & 5-6 (in v1)

Question 8

what are the form processing RF sizes in area v1/v2

Answer 8

relatively small 0.1 (fovea) - 2 (bit eccentric) degrees, depending on visual eccentricity

Question 9

what are the form processing RFs organisation like in area v1/v2

Answer 9

• simple ~15%: linear discrete ON & OFF sub-regions
• complex ~75%: non-linear, overlapping ON/OFF regions
• hypercomplex ~10%: end-stopped inhibition, so also size selective and well as orientation selective

Question 10

what do RF organisations of form processing cells in area V1/V2 interested in

Answer 10

only like lines/edges of a particular orientation and hate ones that are at 90 degrees

Question 11

how many % off cells in area v1 are orientation selective and what do they respond best to

Answer 11

75%
respond best to contours (lines, edges) over a narrow range of possible orientations but not to other orientations of the same stimulus

Question 12

what are the orientation selectivity cells in area v1 responses independent of, and except which population

Answer 12

independent of the size of the oriented stimulus

except among a small population 5-10% of ‘end-stopped’ or hyper-complex cells

Question 13

what two sub-divisions is monkey area V4 believed to contain

Answer 13

1. one primarily concerned with colour vision

2. other mainly concerned with form vision

Question 14

what are the RFs of the sub division of monkey area v4 concerned with form vision size, compared to area v1 at equivalent visual field locations

Answer 14

2-5x larger

Question 15

what component is 2-5x compared to another component in a monkey brain

Answer 15

the RFs of the sub division of monkey area v4 concerned with form vision size, compared to area v1 at equivalent visual field locations

Question 16

what does monkey area v4 sub-division concerned with form vision, contain none of, and only of which RF organisations

Answer 16

no simple cells (beyond v1 & v2)

all RF organisations are complex or many are hyper-complex (end-stopped)

Question 17

in monkey area v4 sub-division concerned with form vision what are ~50% of cells

Answer 17

orientation selective

but they ALL prefer stimuli of a particular size (width verses length)

Question 18

what do the ~50% of orientation selective cells in monkey area v4 sub-division concerned with form vision all prefer

Answer 18

stimuli of a particular size (width verses length)

Question 19

how is RF sizes in functional specialisation for object & motion perception areas V4, IOT & IT compared to V1 cortex

Answer 19

increased RF sizes at all eccentricities (neurons analysing a larger region of space)

Question 20

how is orientation selectivity in functional specialisation for object & motion perception areas V4, IOT & IT compared to V1 cortex

Answer 20

reduced orientation selectivity and absent in IT

replaced by size-shape or object category-selectivity

Question 21

what are orientation selectivity in functional specialisation for object & motion perception areas in V4, IOT & IT replaced by

Answer 21

size-shape or object category-selectivity

Question 22

how are the specific form attribute in functional specialisation for object & motion perception areas V4, IOT & IT compared to V1 cortex

Answer 22

columnar organisation for that specific form attribute that the area is responsible for and specialised to encode

Question 23

how are the representation of central vision where perception mainly occurs in functional specialisation for object & motion perception areas V4, IOT & IT compared to V1 cortex

Answer 23

biased representation of central vision, where object perception mainly occurs, in object processing pathway areas only concerned with central vision, central 20 degrees where we identify & recognise objects and peripheral VF representations disappear the higher up the pathway you go

Question 24

how is the retinotopic order in functional specialisation for object & motion perception areas V4, IOT & IT compared to V1 cortex

Answer 24

loss of retinotopic order

Question 25

what does RF sizes increase with for V1, V2, V4 & IOT & IT cells

Answer 25

eccentricity, by a linear correlation

Question 26

what does the increase in size of RF with eccentricity increase gradually from

Answer 26

V1 to V2 to V4 & becomes really large in IT & IOT cortex

Question 27

what is the increase in RF size in V1 V2 V4 & IT & IOT mirrored by

Answer 27

increase in RF complexity

Question 28

what are V1 and V2 RFs mainly concerned with

Answer 28

fragments of objects (lines and edges)

Question 29

what are V4 and IT & IOT RFs mainly concerned with

Answer 29

simple geometric shapes & real objects and complex shapes (components of objects)

Question 30

what are most of the ~50% of v4 cells which are orientation selective

Answer 30

end stop tuned
to the size of the stimulus (like hyper column v1 cells)
where e.g. in a box RF, a line placed inside it must be confined to the RF size, if extended the RF will shut off

Question 31

what do the other of the ~50% of v4 orientation selective cells which are not end stop tuned respond to

Answer 31

respond selectively to simple geometric shapes (squares, rectangles) of a particular size e.g. can like a small rectangle placed in its RF, or a square placed in its RF or a rectangle placed in its RF..

Question 32

what do monkey IOT & IT cortex RF properties of single cells correlate with

Answer 32

object perception

Question 33

what are the monkey IOT & IT RFs like in relation to V4 RFs

Answer 33

much larger than V4 RFs & always involve the fovea & central (10-20 degrees) visual field

Question 34

what do the monkey IOT & IT RFs always involve

Answer 34

the fovea & central (10-20 degrees) visual field

Question 35

what do the monkey IOT & IT RFs cells respond to what type of stimulus

Answer 35

a specific form stimulus anywhere in their RF & regardless of its size

Question 36

what do IOT cells respond to

Answer 36

general shapes like squares or triangles, or to particular patterns

Question 37

what do IT cells respond to

Answer 37

only category-specific objects, like faces, hands or types of fruit

Question 38

what are the names of the dots/plots on a graph which shows a share cell in IOT response to particular shapes

Answer 38

rastor plots, the more there are, the more the IOT likes that shape i.e. stimulus fires lots of action potentials

Question 39

why are there rows of dots on the graphs which shows the amount of rastor plots of a shape cell in the IOT cortex e.g. a row of 8 dots

Answer 39

indicates that the stimulus was placed into the cell’s RF on 8 separate occasions to look at the cell’s response to make sure the activity produced by one stimulus presentation was reliable and consistent from one to the next

Question 40

what does an accumulative histogram show of a shape cell in IOT cortex

Answer 40

the number of action potentials that were fired shortly after the stimulus was presented, so a big mountain = a big response and no mountain = no response

Question 41

what does a histogram of different types of squares of a shape cell in IOT cortex results investigate

Answer 41

if its components of a square which fires action potentials and shows e.g. the cell may not like a square with a hole in the middle or patterned stripe squares, but may like the solid square

Question 42

what type or organisations are there for neurons in IOT cortex

Answer 42

columnar

Question 43

what do the vertical columns represent for neurons in IOT cortex

Answer 43

response of cells are the same to those types of stimulus can be, simple geometric and complex shapes, hands or patterns

Question 44

what do horizontally across the cortex cells represent in IOT cortex

Answer 44

types of cells you find are different preferences

Question 45

what does a recording from a monkey face cell in IT cortex show

Answer 45

that it can only respond to one face of interest where it gives a big response (out of 4 faces which was placed in its RF, the responses were completely different and depended on the face that was placed there) regardless of the viewing angle or facial expression

Question 46

in the ventral, what? processing stream, where is area v4 located

Answer 46

on the lingual gyrus

Question 47

what does area v4 in the ventral what? processing stream represent

Answer 47

form & colour

Question 48

in the ventral what? processing stream, where is the IOT/LOC located

Answer 48

inferior temporal sulcus and gyrus

Question 49

what does the IOT/LOC in the ventral, what? processing stream represent

Answer 49

all objects, general object processor

Question 50

in the ventral, what? processing stream, what does the IT/fusiform gyrus represent

Answer 50

specific objects (faces)

Question 51

when images of a banana vs scrambled version of banana (stimulus) was presented to a person and the activity of the brain was monitored, what was the difference in cortical action with the LOC, compared to area V1

Answer 51

LOC only activated with the real object - banana
V1 was not activated when viewing banana vs scrambled version as cells in V1 like oriented lines in the scrambled version and the blocks and edges too

Question 52

what type of objects is the LOC activated by

Answer 52

all types of objects

Question 53

what area is only activated by faces

Answer 53

face area on fusiform gyrus (not interested in objects)

Question 54

what usually happens in a general form agnosia (damage to LOC)

Answer 54

• conscious visual sensation of the components of objects is preserved (because area v1 & v2 is intact)
• but px cannot recognise whole objects that they see or understand their meaning (what they are and what they’re there for)
• although memory of what they look like & their purpose are preserved

Question 55

what usually happens in category-specific agnosia (damage to fusiform gyrus)

Answer 55

• is restricted to particular classes of object
• most commonly faces = prosopagnosia, but can be just animals or buildings etc which can be damage to areas right near the fusiform gyrus

Question 56

what can be seen in form agnosia, damage to LOC

Answer 56

lines and contours and other elements due to v1 being intact

Question 57

what cannot be understood in form agnosia, damage to LOC

Answer 57

the over all picture, what it is

Question 58

what can carbon monoxide poisoning effect

Answer 58

inferior occipital & temporal parts of the brain and can cause a bilateral LOC lesion

Question 59

what remains intact from a LOC lesion

Answer 59

• visual fields
• VAs, stereo
• spatial acuity
• colours
• motion

Question 60

what cannot be matched with a person with LOC lesion

Answer 60

simple shapes or simple objects

nor can they copy-draw familiar objects but can reproduce-draw them from memory

Question 61

what can people with prosopagnosia: damage to fusiform gyrus not recognise

Answer 61

faces, including their own

Question 62

what can people with prosopagnosia: damage to fusiform gyrus identify

Answer 62

familiar people from other visual cues e.g. hair colour, spectacles & from their voice
can also interpret emotions in facial expressions, even though unable to identify to whom the face belongs to, as this involves another part of the brain called the amygdala

Question 63

what are the physical properties of real objects e.g. your own face

Answer 63

invariant, they are immune to changes n ambient illumination, viewing angle, size, location

doesn’t change from moment to moment, regardless of other things that do change

Question 64

what is the fundamental challenge of the perceptual ventral stream

Answer 64

is to create object-based representations of the physical constancies, while ignoring these other random factors e.g. when light levels drop

Question 65

extra striate cortex contains neurons that represent…

Answer 65

object constancies e.g. faces, regardless of their viewing angle, location, size or expression

Question 66

but what do the perceptual constancies for object forms, colours & motion seem to be represented in

Answer 66

different, widely separated (located in different parts) extra striate cortical areas

Question 67

what are objects with similar features (faces or volkswagons) represented by

Answer 67

many single cells as a ‘population code’ e.g. face cells in IT cortex respond to several faces with similar features, not just to one (such as cells in a monkey brain tend to encode particular categories of people, e.g. some cells like people with narrow thin noses with eyes close together but hate, people with round flat noses with eyes wider apart and vise versa) so has category specific rather than groups of faces in the IT cortex

Question 68

in the extra striate cortex, only damage to the fusiform gyrus can cause…

Answer 68

prosopagnosia

Question 69

in the extra striate cortex, none of which cells are orientation selective

Answer 69

LOC cells

Question 70

in the extra striae cortex, damage to area V5/MT in the left cortex would result in…

Answer 70

right hemi-akinetopsia