W10: Perception 2 Flashcards
What percentage of the brain’s cortex is involved in visual processing?
50%
The important parts of the human eye
Cornea, iris, lens, retina, photoreceptors, optic nerve, vitreous humour
Process which lights turn into visual images
Lights enter the eye, it passes through the cornea and lens, which focus it on the retina
Photoreceptors covert light into electrical signals that travel along the optic nerve to the brain, where lights are processed into visual images
What are the 2 types of photoreceptors?
Rods and Cones
What is the primary different between the two types of photoreceptors?
Rods:
* Enables vision in low light condition
* Do not provide colour vision
Cones:
* Active when there is enough light stimulation
* Provide colour vision
* 3 types of cones, which are sensitive to diffrent wavelengths and frequencies of length
What are the three type of cones? Their wavelengths and what colour are they sensitive to?
Blue cones/ S-cones:
* Sensitive to blue light
* Short wavelenghts
Green cones / M-cones:
* Sensitive to green light
* Medium wavelength
Red cones / L-cones:
* Sensitive to red light
* Long wavelengths
How does colour blindness occur?
- Occurs due to genetic mutation
- Affects the funcitoning of on or more types of cone cells
- e.g. red-green colour blindness –> deficiency in red sensitve or green sensitive cones
Structure of a retina and how light approach the photoreceptor
Does the incoming light hit the part that is sensitve to that light first?
No.
- The incoming light needs to travel through a bunch of neurons, e.g. ganglion cells, amacrine cells, bipolar cells, horizontal cells, before getting to the photoreceptor cells (the cones and rods)
How does the incoming light travel to the brain?
- Incoming light need to travel through a bunch of neurons before getting to the photoreceptor cells
- When there is enough simulation in the receptor cells, action potential occurs and the light get send back again to the ganglion cells
- When light reaches the ganglion cells, the axons are then bunched up into the opitc nerve, which then travel through the retina into the brain
Can there be photoreceptor cells there the optic nerves leave for the brain?
No, where the optic nerves leave for the brain, there are no rods or cones cells
Where is the blind spot located?
Located toward the nasal retina, so closer to the nose
How does the brain compensate for the blind spot?
By filling in what it thinks should be there
How does stereopsis help overcome blind spots?
Through crossover of the optic chiasm
- Since the eyes are separated horizontally, each eye perceive a slightly different depth and view
- The right side of space gets processed in the left hemisphere and the left side is processed in the right hemisphere
- The brain combines both view and create a three-dimentsional image with depth
What is stereopsis?
Depth perception that enables 3D images by combining the perception of the visual stimuli from both eyes
What is the trade off between sensitivity and resolution of photoreceptor cells?
Rods:
* Greater light sensitvity at the reduction in resolution
* Because many rods send nerve impulses or action potentials to the ganglion cells
Cones:
* Less light sensitive but provide high resolution images with better fine details
* One or two cones that send signals to several ganglion cells
