1. 3 points for this lecture 1. Knowledge influences perception. 2. Knowledge can influence perception because learning speeds up access to LTM. 3. Access to LTM is speeded up by development of a virtual short term memory, called Long Term Working Memory (LT-WM)

2. 3 points for this lecture 1.Knowledge influences perception. 2.Knowledge can influence perception because learning speeds up access to LTM. 3.Access to LTM is speeded up by development of a virtual short term memory, called Long Term Working Memory (LT-WM

3. 1. Knowledge influences perception Biederman, Rabinowitz, Glass, & Stacy (1974) Subjects better at identifying briefly-presented objects that were expected in a context. It’s easier to see things you expect to see. All of us use expectancies in seeing the world. But what do we expect to see?

4. What do we expect to see? Chase & Simon (1972) Compared chess master, intermediate and novice players. Subjects viewed chessboard in midgame, then reconstructed it from memory (0 delay). Grandmaster saw and remembered more than the other two.

5. How did the GM’s knowledge help him? The GM looked for patterns in the display. Two pieces classed as in the same chunk if set down less than 2 seconds apart. GM had more and larger chunks. Pieces put down in succession by GM shared more relations (e.g., type, colour, defence).

6. How do patterns help experts? Chi, Feltovich, & Glaser (1981) Compared 1st yr. undergrads (novices) and senior Ph.D. students in physics (experts). Subjects grouped physics problems. Novices classified on basis of surface; experts used underlying structure (e.g., Newton’s Second Law), ignoring surface differences.

7. Review 1. We all use expectancies in ordinary perception. It’s easier to see things we expect to see (Biederman). 2. Experts show a pronounced form of this effect – they develop precise expectations for their skill domain. (Chase & Simon) 3. Those expectations allow experts to recover the underlying structure of their domain. (Chi et al.)

8. 3 points for this lecture 1.Knowledge influences perception. 2.Knowledge can influence perception because learning speeds up access to LTM. 3.Access to LTM is speeded up by development of a virtual short term memory, called Long Term Working Memory (LT-WM

9. How can knowledge influence perception? Perception happens fast. How can we retrieve knowledge fast enough to influence rapid perception? Two theories: Superior performance based on innate ability. Superior performance based on learning.

10. Superior performance based on talent The first possibility is that experts are good because of some trait, something they were born with. This view has three implications: 1. People with basic training should be capable of excellent performance because they have talent.

11. Superior performance based on talent 3 implications of the talent hypothesis… 2. Aptitude tests should be good predictors of performance even after years of experience. 3. Should be an upper limit to how good a person’s performance can be (specified by their talent).

12. 3 implications of the talent hypothesis All three claims are false. 1. With only basic training, no-one does well. 2. Aptitude tests are poor predictors of performance after several years of experience. 3. If there is an upper limit to performance, we haven’t found it yet. (Consider Olympic athletes, ‘difficult’ violin pieces, of 100 years ago.)

13. Superior performance based on learning Some examples of superior performance: Blindfolded chess master, George Koltanowski could play 30 opponents at once, winning most games, drawing the others. (Koltanowski, 1985) An expert waiter, J.C., rapidly takes orders from up to 20 customers at one table. Never mixes them up. Always delivers right meal to each person. (Ericsson & Polson, 1988).

14. Superior performance based on learning How do these experts do this? In playing chess or taking food orders, you need Fast access to a memory store. Large capacity in that memory store. But humans have two stores – one for fast access (STM) and one for large capacity (LTM).

15. 3 points for this lecture 1. Knowledge influences perception. 2. Knowledge can influence perception because learning speeds up access to LTM. 3. Access to LTM is speeded up by development of a virtual short term memory, called Long Term Working Memory (LT-WM

16. Virtual short-term memory Ericsson & Kintsch (1995) argue that experts have a virtual short-term memory. E & K call it, Long Term Working Memory (LT-WM). Through experience, you set up a virtual STM inside LTM – a rapid access store without the capacity limit. Based on Chase & Ericsson (1982).

17. Chase & Ericcson (1982) Used the digit-span task Subject hears a sequence of digits, like 7 – 4 – 9 – 5 – 1 – 3, and repeats them back. Score = number repeated back without error. Subject S.F., a long distance runner, had a digit span of over 80 digits.

18. How did S.F. do that? S.F. began with groups of four or five numbers, which he coded as times for distances (e.g., 3 – 5 – 9 – 6 = 3 min. 59.6 seconds, for 1 mile race). He then grouped the groups into supergroups, then grouped the supergroups, producing a hierarchical network structure. At the top of the hierarchy was a ‘node.’ That node went into STM.

19. 3 5 6 9 4 2 8 1 7 6 1 3 5 2 9 8 6 1 5 3 4 7 3 6 8 5 2 9 1 4 7 3 2 Top-level node

20. How did S.F. do that? At the end of a long session of hearing, storing, and recalling lists of digits, he could accurately retrieve all of the lists. C & E could specify a location in the network for a given list, and S.F. could tell them the digits in that location in the network in his memory. He must have been capable of very rapid storage in a long-term store.

21. Extending the model to expertise in general Ericsson & Kintsch expanded Chase & Ericsson’s idea into a general model of expert behaviour: Network retrieval structures are rapidly created and stored by experts. With top-level node in STM, the whole structure becomes rapidly available.

22. Review Information is stored in LTM. Each item is associated with a cue. All cues are related in a hierarchical retrieval structure, under a top-level node. With top-level node in STM, any item under node can be retrieved. Fast access + large capacity = LT-WM