Chapter 4-Temporal Vision

Question 1

what is temporal vision

Answer 1

concerned w/ the ability to perceive temporal modulations of light or changes in luminance over time

Question 2

w/out temporal changes, we wouldnt be able to detect what

Answer 2

our surroundings

Question 3

how is it possible to detect a luminance grating that is static/doesnt move?

Answer 3

luminance grating is always moving on our retina.

the retinal img always moves

Question 4

there is some temporal modulation on sptial luminance gratings due to what

Answer 4

eye movements

Question 5

what is the troxler effect

Answer 5

small movements do not move the retinal image and this system fails

Question 6

how can temporal vision be measued

Answer 6

w/ flashes with a time interval btwn them

• usually studied w/ luminance gratings that alternate btwn min adn max luminance over time
• FLICKERING

Question 7

what is temporal luminance modulation

Answer 7

“flicker”

-has luminance modulating throughout time (not space)

Question 8

what is one cycle in temporal freq

Answer 8

the time from peak luminance to peak luminance

-or trough to trough luminance

Question 9

what is the unit for defining spatial freq

Answer 9

1 degree of visual angle

Question 10

what is the unit for defining temporal frq

Answer 10

1 sec

Question 11

what is temporal contrast of luminance modulation

Answer 11

differenc ein luminance exprssed as %contrast

-difference btwn the max and min values of a flicker

Question 12

what is low temporal contrast

waht is high temporal contrast

Answer 12

diff btwn max and min luminace of this flicker is small

-high temp: the diff btwn the max and min luminace of this flicker is greater

Question 13

what is the spatial resolution limit

Answer 13

the max spatial cycles per degree of visual angle somebody can detect

Question 14

what is the temporal solution limit

Answer 14

the max temporal cycles per 1 sec someone can detect or the fastest flickering

Question 15

what is the maximum flickering we can detect called

-what can it determine

Answer 15

critical flicker frequency (CFF) and dtermines the temporal VA

Question 16

for temporal freq above the CFF the stimulus appears how

Answer 16

steady or fused

Question 17

who is reponsible for temporal resolution

Answer 17

determined at an early stage at the visual pathway as it can be described by the temporal prop of the photoreceptors and ganglion cells

Question 18

waht are factors that affect CFF

Answer 18

retinal illuminance
retinal location
stimulus size
retinal adaptation

Question 19

what does CFF increased w/

Answer 19

retinal eccentricity

Question 20

CFF is a function of _____ for different retinal eccentricities

Answer 20

retinal illuminance

Question 21

CFF is higher in fovea or peripheral retina?

Answer 21

peripheral retina

Question 22

mid or peripheral retina is more sensitive to flicker?

Answer 22

peripheral

bc of diff temporal properties of parvocelluar and magnocellular pathways
-central: mostly midget ganglion cells

Question 23

what is granit harper law

Answer 23

CFF increases as the stimulus size increases

Question 24

once rods are dark adapted, what happens to temporal resolution

Answer 24

decreases

Question 25

what do dark adapted rods suppress

Answer 25

cone flicker sensitivity

bc of the increase at the horizontal cell’s response when the rods were desensitived

Question 26

what is the minimum contrast that we still see the light flickering?

Answer 26

temporal contrast senstivity

Question 27

what is the temporal contrast sensitivty function

Answer 27

temporal contrast sensitivity as a function of temporal freq

Question 28

what is low freq drop off

why?

Answer 28

our sensitivyt to low temporal freq below this point decreases and we can no longer detect them

bc of troxler effect

Question 29

waht is the troxler effect

Answer 29

when one fixates on a particular point for even a short period of time, an unchanging stimulus away from the fixation point will fade away and disappear

Question 30

what can explain the troxler effect

Answer 30

the low sensitivity to low tempoarl frequencies

Question 31

what does the peak sensitivty show that the neurons respond maximally to

Answer 31

that the majority of the neurons respond maximually at stimuli w/ intermediate temporal freq

Question 32

what is the high freq cut off

Answer 32

due to the inability of neurons to signal high temporal freq

Question 33

the point where the fucntion intersects the x axis is the maximum CFF we can perceive at ….

Answer 33

100% luminance modulation

Question 34

what is the low freq drop off due to

Answer 34

due to a lag btwn the center and the surround of a receptive field

Question 35

for every luminance modulation there are 2 CFF. what are they for

Answer 35

one for low end and one for the high end of the freq range

ex. for 5% luminance mod we arent able to perceive flicker for freq lower than low CFF 3Hz and higher than high CFF 50Hz

Question 36

for everyday life, where does the peak sensitivity of temporal contrast sensitivty range

• for everyday life, the max CFF is what
• for low light levels the max CFF can be as low as what

Answer 36

btwn 10 and 20 Hz
60Hz
10Hz

Question 37

which pathway that is sensitive to low spatial freq and high temporal freq believed to be early affected in glaucoma and IOP w/o vision loss

Answer 37

magnocellular pathway

Question 38

what does the freq doubling technology test

Answer 38

the sensitvity to low spatial freq gratings that flicker fast

Question 39

patiends w/ AMD who have a reduced temporal sensitivty btwn _______Hz are at risk for developing neovascular AMD (wet AMD)

Answer 39

5 and 40 Hz

Question 40

what can discriminate pre-neovascular pts from normal pts

Answer 40

temporal sensitivty to just 2 temporal freq (5 and 10 Hz)

Question 41

what is the broca-suzler effect

Answer 41

brightness is a perceptual phen and not something that can be measured w/ an instrument

Question 42

what phenomenon does the broc-suzler effect see

Answer 42

that short duratoin light appear brighter than another steady light w/ the same avg luminance

Question 43

what happens to the brightness of a flickering light? does it change with temporal freq?

Answer 43

yes, flicker of approx 10Hz appear brigher than flicker of lower or higher temporal freq

Question 44

what is the brucke-bartley phen

Answer 44

if a light is flickering w/ a temporal freq equal to CFF and we start reducing its temporal freq then there will be a point where the flickering light appears brighter than b4

-point of enchancemnt is around 10Hz

Question 45

what is the bruke bartley phen a direct consequence of

Answer 45

broca-suzler effect

Question 46

what is the talbot plateau law

Answer 46

a fused flickering light appears the same in brightness as a steady light w/ luminance equal to the time avged luminance of the fused light

Question 47

what is masking

Answer 47

the effect a ‘masking’ stimulus has on the detection of a test stimulus that is presented before, during, or after the masking stimulus

Question 48

masking vs adaptation

Answer 48

adatation: long process, adapting stimulus is presented for a long time and the effect of adaptation lasts long
masking: short. short stimulus and the effect lasts a couple of hundrend millisecs

Question 49

how can backward masking be explained

Answer 49

latency in the neuronal response to a near threshold test stiumulus

Question 50

what can simultaneous and forwad masking be explained by

Answer 50

signal detection theory

-masking stim generates lots of neuronal activity while the test stim generates lower

Question 51

what do metacontrast and paracontrast suggest in masking

Answer 51

there are lateral interactions btwn the neurons and that there is also some overlap of their receptive field

Question 52

masking occurs not only when flashes are separted in time, but also in…

Answer 52

space

Question 53

what is paracontrast

what is metacontrast

Answer 53

when it is presented before the masking stimulus (backward masking)

-when it is presendted after the masking stimulus (foward masking)