Spectacular Vision Science

Adatok

A Tantárgybejelentőben megadott hivatalos adatok az alábbi tanévre: 2020-2021

Tematika

For most people, vision is the primary source of perception. Quite often, we wonder how it actually works and the answers don't always seem easy. Why is the sky blue? How many megapixels does the human eye have? Can we really see a single photon? What is blindsight? How does the bull see the red cape? How does 3D movie work? This course is aimed at answering many questions of this kind but also at raising some that puzzle researchers today. We will present live demonstrations, illusions and discuss experiments that led to important discoveries in order explain the neural mechanisms of vision in an interesting way. We will also talk about diseases causing loss of visual functions as well as about animal vision. The course begins with an introduction to psychophysical and neurophysiological research methods and a little light physics. Then we follow the path of visual information processing from the photoreceptors to higher visual cortical areas. In the second part, we talk about some of the visual sub-systems including color vision, stereopsis, motion perception and finally visual memory and attention. To conclude the course, we discuss visual illusions that won the latest Best Illusion of the Year Contest.

Előadások

• 1. Sensation and perception. Psychophysical methods. The methods of neuroscience in vision research - Dr. Buzás Péter
• 2. A little light physics. Radiometry and photometry. Optical system of the eye. Rods and cones. Phototransduction. Dark and light adaptation - Dr. Buzás Péter
• 3. One picture, ten interpretations: retinal processing. The subcortical channels - Dr. Buzásné Dr. Telkes Ildikó
• 4. Receptive fields in primary visual cortex. Columns, hypercolumns and maps. Building blocks of pattern and form perception - Dr. Buzásné Dr. Telkes Ildikó
• 5. "What?" and "where?" Parallel processing in the visual cortex. Visual perception and cognition. Gestalts and grandmother cells - Dr. Buzás Péter
• 6. The color stimulus. Brain mechanisms of color vision. Color appearance. The names of colors. Subjective colors. Synesthesia: wednesday is indigo blue. Disorders of color vision - Dr. Buzás Péter
• 7. Animal vision. The case of the bull with the red cape - Dr. Kóbor Péter
• 8. Depth perception with one eye. Depth perception with two eyes. How does 3D movie work? - Dr. Kóbor Péter
• 9. What does the eye doctor look at? Clinical vision tests - Dr. Ráczné Dr. Mikó-Baráth Eszter
• 10. Visual development and its disorders - Dr. Ráczné Dr. Mikó-Baráth Eszter
• 11. Sensing and perceiving visual motion. Optic flow. Navigation. Biological motion - Dr. Cziger-Nemes Vanda Ágnes
• 12. Visual learning and memory. Visual attention and its disorders - Dr. Cziger-Nemes Vanda Ágnes

Gyakorlatok

Szemináriumok

A tananyag elsajátításához szükséges segédanyagok

Kötelező irodalom

Saját oktatási anyag

Lecture slides will be available on MeetStreet.

Jegyzet

Ajánlott irodalom

Robert Sekuler - Randolph Blake: Perception, McGraw Hill
Jeremy Wolfe et al.: Sensation and Perception, Sinauer
Eric Kandel et al. (ed.): Principles of Neural Science, McGraw Hill

A félév elfogadásának feltételei

Maximum of 25 % absence allowed

Félévközi ellenőrzések

Written essay of 1400-1800 words at the end of semester.

Távolmaradás pótlásának lehetőségei

Absences up to 25% of the sessions can be made up by passing the end-semester test.

Vizsgakérdések

The essay must describe a visual illusion and analyze it according to pre-defined criteria.

Vizsgáztatók

Gyakorlatok, szemináriumok oktatói