PSYC2020 Practice Questions - Wk5 Visual System

Question 1

How much visual information goes to the superior colliculus, and not to visual processing?

Answer 1

10%

Question 2

What are the 3 steps to visual pathway (overview)?

Answer 2

1. Image formation - eye
2. Transduction - retina
3. Visual processing

Question 3

what is the difference between optic tracts and optic nerves?

Answer 3

Nerves = bilateral visual fields

Tracts = unilateral visual fields

Question 4

How much of optic nerve fibres cross a the optic chiasm? And what is the effect of this?

Answer 4

50%

information from the nasal hemiretina crosses over to the cortex that process that respective visual field

Question 5

What’s the difference between optic nerves and optic tracts? And what does this mean for potential damage?

Answer 5

Bilateral vs unilateral information, respectively. So if you cut one you’ll lose either both fields or just one.

Question 6

What does the term retinotopic mean?

Answer 6

Adjacent points in the visual field map onto adjacent points on the retina. and this mapping maintained through the processing hierarchy

Question 7

What does cortical magnification refer to?

Answer 7

More cortex is dedicated to processing the central visual field (near the fovea) than the periphery

Question 8

What is a receptive field?

Answer 8

The regions on the retina which excite or inhibit a cell. So a neuron has an area in space which it will respond to.

Question 9

What are possible characteristic of Receptive Fields? 4

Answer 9

They can have small or large spatial resolution.

They have both an excitatory and inhibitory region.

Question 10

What shape are centre surround cells (1) and simple cells (1)? 2

Answer 10

Round and rectangular, respectively.

Question 11

What are four things that happen in the eye?

Answer 11

1. Form an image
2. Generate a neural signal through transduction
3. Early neural processing !
4. Transmit the visual signal to the brain

Question 12

Where does the visual spectrum of light lie on the whole spectrum?

Answer 12

Between ultraviolet and infrared light

Question 13

what is the cornea and what does it do?

Answer 13

A transparent outer layer of the eye. It refracts (bends) light

Question 14

what does the lens do in the eye?

Answer 14

Fine tunes the image. It stiffens with age

Question 15

What is the accomodation reflex of the eye lens?

Answer 15

Lens shape automatically changes depending on what you are looking at

Question 16

What do the pupil and iris do?

Answer 16

The opening (pupil) is regulated by contractile tissue (iris). It varies light and thereby focal length.

Question 17

What is the fovea?

Answer 17

High acuity part of the eye, lots of cones. Where RGCs are cleared away

Question 18

what is the backward writing problem and how is it solved?

Answer 18

Light has to pass through the processing layers before the receptors, meaning it will pass through all the nerves. The fovea clears away most of the wiring in the center to allow more clarity of light.

Question 19

Where does the optic nerve go?

Answer 19

To LGN

Question 20

What is the optic disc?

Answer 20

The blind spot where nerves and blood vessels exit the eye.

Question 21

What does it mean if each eye has a blind spot but there is no black hole in vision?

Answer 21

Vision is construction

Question 22

In completion what happens to edges, and what happens to surfaces?

Answer 22

Continued, interpolated respectively

Question 23

What cells in the eye contribute to lateral communication?

What is lateral communication?

Answer 23

Horizontal and amacrine cells. Early processing

Question 24

What is photopic vision?

Answer 24

Well lit vision

Question 25

Why do cones have low convergence? What does this mean?

Answer 25

RGCs are connected to very few cones, so there is better positional acuity

Question 26

Where does colour perception come from?

Answer 26

Cones

Question 27

What does high convergence in rods mean?

Answer 27

Many rods feed an RGC, so low positional acuity but high sensitivity to light

Question 28

What is the benefit of convergence?

Answer 28

Simple processing is done whilst the reducing the amount of axons to the brain

Question 29

What are Mach bands?

Answer 29

Contrast enhancement for edge detection

Question 30

how does lateral inhibition work?

Answer 30

Each receptor fire based on intensity AND neighbour inhibition

Question 31

what myelinated the optic nerves?

Answer 31

ODCs not Schwann cells; because it’s CNS not PNS

Question 32

Why does albinism result in poor depth perception?

Answer 32

Disruption of melanin synthesis in development causes more decussation (more visual signal crosses over than is needed)

Question 33

What type of receptive fields do retinal ganglion cells have?

Answer 33

Centre-surround

Question 34

What do centre surround cells respond to?

Answer 34

Contrast rather than light detection

Question 35

What happens to the visual stream in the LGN?

Answer 35

Left and right eyes are separated into different layers (3 each) and P and M channels

Question 36

Where do axons from the LGN project to in the striate cortex?

Answer 36

Lower layer 4

Question 37

How do you start detecting edges from dots?

Answer 37

Centre surround cells connect to a simple cortical cell with a rectangular RF

Question 38

What are simple cells about? 2

Answer 38

Monocular. Detecting line segments

Question 39

What are the preferences a simple cortical cell can have? 3

Answer 39

Type of edge.
Orientation
Location (retinotopic)

Question 40

What triggers the best response in a simple cortical cell?

Answer 40

An appropriate bar leaving an OFF region and entering an ON region

Question 41

What is contour integration?

Answer 41

we are looking for edges and lines rather than regularity. This is what pops out to us because the visual system is looking for it.

Question 42

What is lateral facilitation?

Answer 42

Lateral connections between directionally similar and retinotopic ally adjacent simple cells. These connections enhance each other

Question 43

What do low and high spatial frequency give?

Answer 43

Texture and edges

Question 44

What is the relationship between simple cell subfields and spatial frequency?

Answer 44

Low SF activates cells with wide subfields. High SF activates cells with narrow subfields.

Question 45

What do complex cells most respond to?

Answer 45

Movement.

Question 46

Where is depth perception calculated?

Answer 46

Complex cells - because they fire more intensely if both eyes have same input

Question 47

What is ocular dominance in complex cells?

Answer 47

Complex cells respond more vigorously to one eye.

Question 48

What is blindsight?

Answer 48

Scotomas which still respond without conscious awareness

Question 49

What is the difference between damage to the dorsal and ventral stream?

Answer 49

Dorsal: can describe but cant grab object

Ventral: can grab, but not describe

Question 50

What are the receptive fields of the dorsal and ventral streams?

Answer 50

dorsal: large RF mostly outside fovea

ventral: Large RFs, all include fovea

Question 51

Where is processing for object location or direction of motion?

Answer 51

Dorsal stream

Question 52

Where is processing for colour and shape (characteristics) of objects?

Answer 52

Ventral stream

Question 53

What are the difference between the “what vs where” and “action vs perception” hypotheses?

Answer 53

Difference in kind of information vs difference in how the information is used (functional)

Question 54

What is a dysfunction associated with the dorsal stream?

Answer 54

Akinetopsia - motion blindness (cant see motion)

Question 55

What is processed in the dorsal stream?

Answer 55

Spatial attention and selective attention?

Question 56

What is processed in the ventral stream?

Answer 56

Object centred visual experience

Question 57

What is processed in the anterior and posterior stages of the ventral stream?

Answer 57

Knowledge of object.

Features of objects combined

Question 58

What is the difference between apperceptive and associative agnosia?

Answer 58

Apperceptive = loss of perception, impaired naming and drawing

Associative = loss of meaning, unimpaired drawing & impaired naming

Question 59

What happens first in the chain, apperceptive or associative agnosia?

Answer 59

Apperceptive then associative (can draw)

Question 60

What area is related to prosopagnosia?

Answer 60

Fusiform face area (right inferior temporal lobe)