Smooth motion target displacements during eye blinks
This study investigates the relationship between the motion of a visual target and the perceived position of the target after eye blinks. Eye blinks disturb the visual feedback, and this will reduce the information received to process in the brain. This lapse of visual input is not noticed during...
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| Online Access: | http://hdl.handle.net/10356/77154 |
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sg-ntu-dr.10356-771542019-12-10T13:32:12Z Smooth motion target displacements during eye blinks Neo, Chloe Li Yan Gerrit Maus School of Social Sciences DRNTU::Social sciences::Psychology This study investigates the relationship between the motion of a visual target and the perceived position of the target after eye blinks. Eye blinks disturb the visual feedback, and this will reduce the information received to process in the brain. This lapse of visual input is not noticed during spontaneous blinks. However, when blinks occur during the perceiving of a motion, it is unclear if participants would realise the errors when the continuity of the target’s motion is compromised. This study investigates the prediction of motion during the blink by analysing the perception of the participants when there is a target displacement in a target with a smooth motion trajectory. It considered whether the direction across a horizontal plane and velocity would affect the prediction of motion. Looking at the literature, it is hypothesised firstly that there would be an undershoot of the perception of motion when blinks occur. Secondly, this perception would be unaffected by horizontal directional difference. Lastly, there would be a difference in the perception of motion at different velocities during the blinks. A behavioural responses task was conducted using a smooth motion target stimulus. This study found that while there is no significant difference in the perception of the smooth motion stimulus when it travels in different directions, there is a significant difference in the perception of the smooth motion stimulus at different velocities. This has implications for the perception of time during blinks and opens up avenues to explore how the brain compensates for errors caused by blinks. Bachelor of Arts in Psychology 2019-05-14T06:50:00Z 2019-05-14T06:50:00Z 2019 Final Year Project (FYP) http://hdl.handle.net/10356/77154 en Nanyang Technological University 30 p. application/pdf |
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DRNTU::Social sciences::Psychology Neo, Chloe Li Yan Smooth motion target displacements during eye blinks |
| description |
This study investigates the relationship between the motion of a visual target and the perceived
position of the target after eye blinks. Eye blinks disturb the visual feedback, and this will reduce
the information received to process in the brain. This lapse of visual input is not noticed during
spontaneous blinks. However, when blinks occur during the perceiving of a motion, it is unclear
if participants would realise the errors when the continuity of the target’s motion is
compromised. This study investigates the prediction of motion during the blink by analysing the
perception of the participants when there is a target displacement in a target with a smooth
motion trajectory. It considered whether the direction across a horizontal plane and velocity
would affect the prediction of motion. Looking at the literature, it is hypothesised firstly that
there would be an undershoot of the perception of motion when blinks occur. Secondly, this
perception would be unaffected by horizontal directional difference. Lastly, there would be a
difference in the perception of motion at different velocities during the blinks. A behavioural
responses task was conducted using a smooth motion target stimulus. This study found that while
there is no significant difference in the perception of the smooth motion stimulus when it travels
in different directions, there is a significant difference in the perception of the smooth motion
stimulus at different velocities. This has implications for the perception of time during blinks and
opens up avenues to explore how the brain compensates for errors caused by blinks. |
| author2 |
Gerrit Maus |
| author_facet |
Gerrit Maus Neo, Chloe Li Yan |
| format |
Final Year Project |
| author |
Neo, Chloe Li Yan |
| author_sort |
Neo, Chloe Li Yan |
| title |
Smooth motion target displacements during eye blinks |
| title_short |
Smooth motion target displacements during eye blinks |
| title_full |
Smooth motion target displacements during eye blinks |
| title_fullStr |
Smooth motion target displacements during eye blinks |
| title_full_unstemmed |
Smooth motion target displacements during eye blinks |
| title_sort |
smooth motion target displacements during eye blinks |
| publishDate |
2019 |
| url |
http://hdl.handle.net/10356/77154 |
| _version_ |
1681042047346147328 |