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Cognitive Processes PSY 334 Chapter 2 – Perception June 30, 2003.

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Presentation on theme: "Cognitive Processes PSY 334 Chapter 2 – Perception June 30, 2003."— Presentation transcript:

1 Cognitive Processes PSY 334 Chapter 2 – Perception June 30, 2003

2 Visual Perception  Distal stimulus -- tree  Proximal stimulus – image of tree on retina  Percept – interpretation of proximal stimulus as a tree Size and color constancy

3 Information Coding  On-off cells in LGN feed into edge and bar detectors in the visual cortex.  Edge detectors – respond positively to light on one side of a line, negatively on the other side of the line.  Bar detectors – responds maximally to a bar of light covering its center.

4 Marr  Depth cues (texture gradient, stereopsis) – where are edges in space?  How are visual cues combined to form an image with depth? 2-1/2 D sketch – identifies where visual features are in relation to observer. 3-D model – refers to the representation of the objects in a scene.

5 Pattern Recognition  Classification and recognition occurs through processes of pattern recognition.  Bottom-up processes – feature detection  Top-down processes -- conceptually driven processing

6 Object Recognition  Two stages: Early phase – shapes and objects are extracted from background. Later phase – shapes and objects are categorized, recognized, named.

7 Disruptions of Perception  Visual agnosias – impairment of ability to recognize objects. Demonstrate that shape extraction and shape recognition are separate processes.  Apperceptive agnosia (lateral) – problems with early processing (shape extraction).  Associative agnosia (bilateral) – problems with later processing (recognition).  Prosopagnosia – visual agnosia for faces.

8 Gestalt Priniciples  Wertheimer, Koffka, Kohler.  Form perception – segregation of a display into objects and background.  Principles of perceptual organization allow us to see “wholes” (gestalts) formed of parts. We do not recognize objects by identifying individual features.

9 Five Principles  Proximity  Similarity  Good continuation  Closure  Common fate Elements that move together group together.

10 Examples Gestalt principles of organization Reversible figures

11 Law of Pragnanz  Of all the possible interpretations, we will select the one that yields the simplest or most stable form.  Simple, symmetrical forms are seen more easily.  In compound letters, the larger figure dominates the smaller ones.

12 Visual Illusions  Depend on experience. Influenced by culture.  Illustrate normal perceptual processes. These are not errors but rather failures of perception in unusual situations.

13 Visual Pattern Recognition  Bottom-up approaches: Template-matching Feature analysis Recognition by components

14 Template-Matching  A retinal image of an object is compared directly to stored patterns (templates). The object is recognized as the template that gives the best match. Used by computers to recognize patterns.  Evidence shows human recognition is more flexible than template-matching: Size, place, orientation, shape, blurred or broken (ambiguous or degraded items easily recognized by people.

15 Feature Analysis  Stimuli are combinations of elemental features. Features are recognized and combined. Features are like output of edge detectors.  Features are simpler, so problems of orientation, size, etc., can be solved.  Relationships among features are specified to define the pattern.

16 Evidence for Feature Analysis  Confusions – people make more errors when letters presented at brief intervals contain similar features: G misclassified: as C (21), as O (6), as B (1), as 9 (1)  When a retinal image is held constant, the parts of the object disappear: Whole features disappear. The remaining parts form new patterns.

17 Object Recognition  Biederman’s recognition-by-components: Parts of the larger object are recognized as subobjects. Subobjects are categorized into types of geons – geometric ions. The larger object is recognized as a pattern formed by combining geons.  Only edges are needed to recognize geons.

18 Tests of Biederman’s Theory  Object recognition should be mediated by recognition of object components.  Two types of degraded figures presented for brief intervals: Components (geons) missing Line segments missing  At fast intervals (65-100 ms) subjects could not recognize components when segments were missing.


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