stimulus localisation Flashcards
what is stimulus localisation?
⇒ where is change happening?
types of object localisation in visual system
- orienting reflex
- orientation of the head and eyes to focus salient stimulus on the fovea
- When novel stimulus appears animals tend to turn their heads and eyes in a position suitable for inspection of this stimulus
types of object localisation in visual system
- orienting reflex
- smooth persuit
- prediction of motion
- saccadic movements during object inspection
what is orienting reflex
- orientation of the head and eyes to focus salient stimulus on the fovea
- When novel stimulus appears animals tend to turn their heads and eyes in a position suitable for inspection of this stimulus
- not an innate response = develops with age
what are saccadic movements during object inspection
moving eyes round to move fovea to get a more accurate representation of something
important areas in stimulus localisation and motion processing
Retina (orientation selective ganglion cells, motion anticipation)
Dorsal stream in the cortex
Superior and inferior colliculus
somatosensory cortex
parvocellular or magnocellular cells used more in stim localisation?
magnocellular cells
role of superior colliculis
- input from ganglion cells, auditary system and integrates information
- main function: regulation of saccadic movements
what structure is responsible for regulation of saccadic movements
superior colliculus
role of different layers of somatosensory cortex
Different layers receive input from different brain areas: Retina, Somatosensory cortext (S1), visual cortex (V1) etc.
retinotopic maps
organisation of neurones where neighboring cells in retina feed information to neighboring places in target structures (LGN, SC, cortex)
what is direction selectivity?
- neurones show different responses to different directions of motion
- shown by cells in primary visual cortex (v1)
morphology of direction-selective cells
- highly asymmetric
- preferred direction can be guessed from the morphology
why/how do ganglion cells respond to motion?
- excitatory input from bipolar cell
- inhibitory input from amacrine cell
-> In preferred direction excitation is larger and Inhibition is smaller and delayed
-> In null direction, the excitation is smaller and delayed and inhibition is larger
how is direction selectivity determined
- ratio between inhibitory and excitatory inputs is what defines direction selectivity
- when the stimulus moves in the preferred direction the excitatory input (blue) is much larger than the inhibitory input. When the stimulus moves in the null direction, the inhibitory input dominates.
