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EECS 690

EECS 690. April 5. Type identity. Is a kind of physicalism Every mental event is identical with a physical event In each case where two minds have something mental in common, they have something physical in common.

penelope-ardelis
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EECS 690

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  1. EECS 690 April 5

  2. Type identity • Is a kind of physicalism • Every mental event is identical with a physical event • In each case where two minds have something mental in common, they have something physical in common. • A note about the notation: ‘(x)’ prior to an expression indicates that it is a universal quantifier over x. ‘’ is the symbol for the biconditional. So read (x) (Mx  Px) as “For all of x, x is a mental event if and only if x is a physical event.” What this means is that for every mental predicate, there is a corresponding physical predicate.

  3. Problems with type identity • The second claim it makes is hopelessly too strong. There are small but noticeable differences between individual persons’ brains that don’t lead us to attribute different mental predicates altogether to them. • Also, type identity theory is what has been called a chauvanist theory, namely that it defends the claim that only (human) brains are minds.

  4. Turing Machine Functionalism (GOFAI) • Substance dualism is still denied here • Instead of some particular physical state type being identical with each mental state type, each mental state has a functional description such that an indefinite number of physical setups could be made to perform the function. • In this case, mental predicates “bottom out” in their specification as a specific state of a universal Turing machine (a digital computer).

  5. Problems with TMF • Though there are still plenty of TMFers kicking around, it is probably still too strong a claim to say that what two people have in common when they both believe that snow is white is to be realizing the same discrete machine state. This still requires that our minds work in some sense in the exact same ways as each other.

  6. Token functionalism • This is the more relaxed form of functionalism that we have been operating with for the past couple of weeks. • In a sense, this approach is born out of a reluctance to reduce mental predicates either to specific brain states or to specific discrete machine states. • Token functionalism isn’t, by itself, a complete theory, but is an hypothesis adopted by many otherwise different theories of the mind.

  7. Dennett’s Move (type intentionalism) • “[E]very mental event is some functional, physical event or other, and the types are not captured by any reductionist language, but by a regimentation of the language we already use.” • His illustration about the society who talks about “fatigues” as mental entities is supposed to illustrate how unregimented our own use of intentional idioms are, and how little the physical facts detract from the usefulness of intentional idioms.

  8. Three ways of talking (and thinking) about different systems • Theories are only useful and valid insofar as they can aid in prediction. Dennett identifies three distinct stances that we can take to aid us in prediction. Each stance involves the use of different theories and considerations. Note that any system can be approached via any stance at any time, but it is typically obvious to us when one stance is more useful than the others.

  9. The Physical Stance • “From this stance our predictions are based on the actual physical state of the particular object and are worked out by applying whatever knowledge we have of the laws of nature.” • This is the stance typically used to describe malfunction (which is why that can be so difficult to explain in complex systems) • Statements and predictions from the physical stance tend to be very fine-grained.

  10. The Design Stance • “Different varieties of design stance predictions can be discerned, but all of them are alike in relying on the notion of function which is purpose-relative or teleological. That is, a design of a system breaks it up into larger or smaller functional parts, and design stance predictions are generated by assuming that each functional part will function properly.” • We generally adopt the design stance when predicting or describing the behavior of mechanical objects, though many sciences routinely make use of the design stance, (e.g. Biology)

  11. The Intentional Stance • “One predicts behavior in such a case by ascribing to the system the possession of certain information and supposing it to be directed by certain goals, and then by working out the most reasonable or appropriate action on the basis of these ascriptions and suppositions.” • “One will arrive at the same predictions whether one forthrightly thinks in terms of the computer’s beliefs and desires, or in terms of the computer’s information-store and goal-specifications.” • The theoretical commitments of the intentional stance include beliefs, desires, and rationality.

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