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Give examples of the way that virtual reality can be used in Psychology.

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Presentation on theme: "Give examples of the way that virtual reality can be used in Psychology."— Presentation transcript:

1 Give examples of the way that virtual reality can be used in Psychology.

2 Avatars for training (eg doctor training) – any labor intensive situation. As psychological theories – eg Walter, language learning. Can directly compare Human and model performance. Virtual environment allows a safe test of generality of training to real world situations.

3 What is visual search? What factors influence search?

4 Process by which a region of the peripheral retina is selected as the target for a saccade. What is visual search? What factors influence search?

5 Process by which a region of the peripheral retina is selected as the target for a saccade. -Can be done on the basis of visual features eg color, shape Eg search for the red object among green things - red object pops out. -Can be facilitated by scene context. – search for faucet in kitchen scene is easier than In a collection of isolated objects. -Or on basis of spatial memory. After experience in a scene, remember where objects are located in the room – eg lab 4 What is visual search? What factors influence search?

6 How does visual memory affect perception? Give examples.

7 Helps the visual system deal with attentional limitations. Can locate objects on basis of memory for a scene. Don’t need to search item by item Can help detect changes (experiment)

8 Probability of fixating objects before and after color change 3 days experience in environment. Change of color

9 What are the primary brain areas involved in the control of movement? Give a brief description of their function.

10 Basic Movement Circuitry

11 Supplementary motor ctx Pre-motor cortex Posterior parietal ctx Primary motor ctx Proprioceptive signals (muscles, joints) Spinal feedback: 30-50 msec 80 msec Target selection Muscle commands Cortico-spinal tract Initiation of movement Smoothness, timing Learning new skills Monitor feedback Planning/ sequences “Efferent copy” ?? M1 Selection of trajectory Activity prior to movement

12 Why might we remain adaptable to new visuo-motor relationships? What is the evidence for this adaptability? Where in the brain might the adaptation be occurring?

13 Why might we remain adaptable to new visuo-motor relationships? 1. Need to adjust to changes in body size during development. 2. Need to adjust to damage/aging. 3. Need to adjust to environmental changes eg ice, loads etc. 4. Need to learn arbitrary mappings for tool use etc. 5. Need to acquire new motor skills. 6. Visuo-motor coordination is a computationally difficult problem for the brain. Need flexibility to correct errors.

14 What is the evidence for this adaptability? Prism adaptation New glasses, contact lenses Learning new skills – eg tool use Using a mouse Stratton experiment

15 Ability to adapt to new relationships requires cerebellum

16 Describe Mike May’s visual capabilities after his vision was restored. What are the implications?

17 Mike May - world speed record for downhill skiing by a blind person. Lost vision at age 3 - scarred corneas. Optically 20/20 - functionally 20/500 (cf amblyopia) Answer to Molyneux’s question: Mike May couldn’t tell difference between sphere and cube. Improved, but does it logically rather than perceptually. (cf other cases) Color: an orange thing on a basket ball court must be a ball. Motion: can detect moving objects, distinguish different speeds. Note: fMRI shows no activity in Infero-temporal cortex (corresponding to pattern recognition) but there is activity in MT, MST (motion areas) and V4 (color). Other parts of brain take over when a cortical area is inactive. Cannot recognize faces. (eyes, movement of mouth distracting) Can’t perceive distance very well. Can’t recognize perspective. No size constancy or lightness constancy/ segmentation of scene into objects, shadows difficult. Vision most useful for catching balls (inconsistent with Held & Hein??) and finding things if he drops them.

18 Implications? Basic object perception (recognition and segmentation) requires experience. (Experience prior to 3 yrs not enough.) Geometric cues about scene structure (perspective, distance) also require experience. Color and motion more robust - either present at birth, or acquired before 3yrs, and preserved without continued experience.

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