The Retina II (Lecture 6)
The visual cortex I (Lecture 7)
Visual pathways (Lecture 8)
Perceiving objects & scenes I (Lecture 9)
Perceiving objects & scenes II (Lecture 10)
100

Photoreceptors representing lighter regions ___________________ lateral inhibition

Photoreceptors representing lighter regions ____generate more___ lateral inhibition 

100

What does contralateral mean with respect to vision?

Each hemisphere of the brain responds to the opposite side of the visual field

100

The dorsal stream processes __________

The ventral stream processes ___________

The dorsal stream processes spatial and action-related information--the "where" stream

The ventral stream processes object information--the "what" stream

100

What are 2 reasons that it is hard to tell what we're looking at?

•Objects can be partially hidden by other objects (occlusion)

•Objects can be in different orientations

•Objects can be seen in different lighting and shadow

100

What is the term for figuring out what is the object versus background?

Figure-ground segregation

200

__________ allow photoreceptors to send signals to each other.

__________ allow ganglion cells to send signals to each other.

Horizontal cells

Amacrine cells

200

Name 2 conditions that could be caused by a stroke to area V1 in the right hemisphere, and which portion of the visual field is affected

Homonymous hemianopia: half of the visual field missing. In this case, it would be left visual field

Homonymous quadrantanopia: 1/4 of the visual field missing. In this case, it would be either top left or bottom left visual field

200

Name the region primarily responsible for object recognition, and the larger region it is a part of

Lateral occipital complex

Inferotemporal cortex (within ventral stream)

200

Describe the 2 competing theories of how we resolve ambiguity

•Structuralism: our perception results from just the adding up of visual information. The whole is the sum of its parts; we don’t make any inferences beyond what we see

•Gestalt psychology: the whole is different than the sum of its parts. We “add something” to the basic visual information to create our perception



200

Name 3 ways in which objects differ from scenes

Object: a single entity, compact, acted upon

Scene: both objects and background, extended, acted within

300

Describe 3 properties of infant vision and/or photoreceptors.

Infant cones are shorter and have less surface area for visual pigments

Infants' central vision is poor, but their peripheral vision is adult-like

300

Name 3 steps of the path of the visual signal after it leaves the eye, in the correct order

Optic nerve

Optic chiasm

Thalamus (most of the signal)*

Area V1

Ventral and dorsal streams


*The other 10% goes to superior colliculus

300

Describe the brain region and the disorder related to understanding written words

Visual word form area

Alexia

300

Describe 3 pieces of evidence for the gestalt view

Apparent movement: Different objects moving in a sequence produce the illusion that one object is moving (like animation)

Illusory contours: perceived edges that do not physically exist

The fact that your brain fills in the blind spot


300

What is scene gist?

What does it imply for theories of how we analyze scenes?

Scene gist: the general description or basic properties of a scene. typically includes information about:

•The scene category

•What the scene is generally about (its meaning)

•The general layout and spatial structure


Implies that scene recognition does not depend on object recognition


400

How do neural convergence and spatial summation differ between the fovea and the rest of the retina?

What is the consequence of this for light sensitivity and resolution?

Neural convergence is lower in the fovea, meaning spatial summation is lower in the fovea

Fovea is less light sensitive but higher resolution

400

Define a spatial receptive field, and list 2 other types of receptive fields

Spatial receptive field: Where a stimulus needs to be in the visual field to cause a given neuron to change its activity 

and: the area of the retina that, when stimulated, causes that neuron to change its response.

Other types of receptive fields: orientation, motion, size


400

What area processes faces?

What disorder results from damage to this area?

How do we process faces?

What is the alternative hypothesis for this area?

Fusiform face area

Prosopagnosia

Holistically (processed as a whole, not a collection of features)

Expertise hypothesis: the FFA actually processes anything we have a lot of expertise for

400

Describe the 2 core issues our visual system needs to solve to resolve ambiguity

1.  Many different objects can generate the same image on the retina

And on the flip side:

2.  The same object can generate very   different images on the retina

400

Name 2 examples of physical regularities

Name 2 examples of semantic regularities

Define a scene schema

Physical regularities: Light from above assumption; more horizontal and vertical lines in the world than other orientations

Semantic regularities: gravity keeps objects down, an oven is in a kitchen

Scene schema: a collection of semantic regularities; what a specific type of scene typically contains, and where elements are placed

500

If a light is shined on a visual receptor, what happens to nearby receptors?

What is this phenomenon called?

What does it do for vision?

If a light is shined on a visual receptor, nearby receptors decrease neural firing.

This is called lateral inhibition

It enhances vision for edges and increases contrast

500

According to the retinotopic map, if objects are close together in your visual field: _________________________

What does cortical magnification refer to?

The neurons that represent them are close together in Area V1

Cortical magnification: Information in foveal vision is way over-represented in terms of how much space it takes up on the retinotopic map

500

Name 2 types of information processed by the dorsal stream

Name 2 types of information processed by ventral stream

Describe which parts of the brain they go to

Dorsal: spatial processing, location, movement, spatial transformations, spatial relations. 

- Parietal lobe

Ventral: object processing, color, texture, pictorial detail, shape, size. 

- Temporal lobe


500

Describe 5 gestalt principles

- Proximity: Things that are near each other appear to be grouped together

- Similarity: Things that are similar appear to be grouped together

- Good continuation: figures with edges that are smooth are more likely seen as continuous than edges that have abrupt or sharp angles. Also, objects that are partially covered by other objects are seen as continuing behind the covering object

- Pragnanz: (principle of simplicity): Things are seen in a way such that the resulting structure is as simple as possible

- Common fate: Things that are moving in the same direction appear to be grouped together

- Common region: Elements within the same region of space appear to be grouped together

- Uniform connectedness: A connected region of the same visual properties is perceived as a single unit

500

Describe the 3 components of Bayesian inference, and the goal of Bayesian inference in visual perception

Components:

1. Prior: our initial estimate of the probability of an outcome (pre-existing beliefs/knowledge)

2. Likelihood: the extent to which the current available evidence is consistent with an outcome (current evidence)

3. Inference: The result of combining the prior and the likelihood; what we infer

Goal: resolve ambiguity in what we're looking at