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SIMPSON’S PARADOX, ACTIONS, DECISIONS, AND FREE WILL Judea Pearl UCLA www.cs.ucla.edu/~judea.

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Presentation on theme: "SIMPSON’S PARADOX, ACTIONS, DECISIONS, AND FREE WILL Judea Pearl UCLA www.cs.ucla.edu/~judea."— Presentation transcript:

1 SIMPSON’S PARADOX, ACTIONS, DECISIONS, AND FREE WILL Judea Pearl UCLA www.cs.ucla.edu/~judea

2 SIMPSON’S PARADOX (Pearson et al. 1899; Yule 1903; Simpson 1951) Any statistical relationship between two variables may be reversed by including additional factors in the analysis.Any statistical relationship between two variables may be reversed by including additional factors in the analysis. Application: The adjustment problem Which factors should be included in the analysis.Which factors should be included in the analysis.

3 SIMPSON’S PARADOX (1951 – 1994) M R R T 2 8 10 T 9 21 30 11 29 40 M R R T 18 12 30 T 7 3 10 25 15 40 R R T 20 20 40 T 16 24 40 36 44 80 += 0.6 < 0.70.2 < 0.30.5 > 0.4 T – Treated T – Not treated R – Recovered R – Dead M – Males M – Females Easy question (1950-1994) When / why the reversal? Harder questions (1994) Is the treatment useful? Which table to consult? Why is Simpson’s reversal a paradox?

4 SIMPSON’S REVERSAL Pr(recovery | drug, male) < Pr(recovery | no-drug, male) Pr(recovery | drug, female) < Pr(recovery | no-drug, female) Group behavior: Overall behavior: Pr(recovery | drug) > Pr(recovery | no-drug)

5 TO ADJUST OR NOT TO ADJUST? Treatment Recovery Gender T F Mediating factor F Treatment T R Recovery R Solution: Adjust iff F blocks all back-door paths

6 TWO PROOFS: 1. 2.When two causal models generate the same statistical data and in one we decide to use the drug yet in the other not to use it, our decision must be driven by causal and not by statistical considerations. Thus, there is no statistical criterion to warn us against consulting the wrong table. Q.Can Temporal information help? A. No!, see Figure (c). F = Car Type THE INEVITABLE CONCLUSION: THE PARADOX STEMS FROM CAUSAL INTERPRETATION 1.Surprise surfaces only when we speak about “efficacy,” not about evidence for recovery.

7 WHY TEMPORAL INFORMATION DOES NOT HELP In (c), F may occur before or after T, and the correct answer is to consult the combined table. In (d), F may occur before or after T, and the correct answer is to consult the F -specific tables. Treatment Recovery Gender T F R Treatment Recovery Blood Pressure Treatment Recovery T F R T F R T F R (a)(b)(c)(d) Car

8 WHY SIMPSON’S PARADOX EVOKES SURPRISE 1.People think causes, not proportions. 2."Reversal" is possible in the calculus of proportions but impossible in the calculus of causes.

9 CAUSAL CALCULUS PROHIBITS REVERSAL Pr(recovery | drug) < Pr(recovery | no-drug) Pr (male | do{drug}) = Pr (male | do{no-drug}) Pr(recovery | drug, male) < Pr(recovery | no-drug, male) Pr(recovery | drug, female) < Pr(recovery | no-drug, female) Group behavior: Entailed overall behavior: Assumption: do{drug}do{no-drug} do{drug}do{no-drug} do{drug}do{no-drug}

10 THE SURE THING PRINCIPLE Theorem 6.1.1 An action A that increases the probability of an event E in each subpopulation must also increase the probability of E in the population as a whole, provided that the action does not change the distribution of the subpopulations.

11 Female 0.5 Male 0.5 TTTT R 0.6 R 0.2 R 0.7 R 0.3 RR 0.7 RR 0.30.20.350.150.10.40.150.35 0.3 < 0.350.1 < 0.15 T F Gender R (a) DECISION TREE FOR F = Gender F

12 -HBP 0.75 R 0.6 R 0.7 R 0.2 E 0.3 R 0.4 -E 0.7 R 0.3 R 0.8 0.450.20.050.20.1750.0750.2250.525 0.50.4 T F Blood Pressure R (b) TT HBP 0.25 -HBP 0.25 HBP 0.75 > DECISION TREE FOR F = Blood Pressure FF

13 R 0.5 R 0.4 R 0.5 T F Blood Pressure R (b) TT R 0.6 0.5 > 0.4 COMPRESSED TREE FOR F = Blood Pressure

14 WHAT DECISION TREE SHOULD WE BUILD FOR F = Car ? Treatment Recovery T F R Car (c) ??? Should F = Car be handled like F = Gender or F = Blood Pressure ???

15 0.3 0.6 Cheap 0.5 Expensive 0.5 TTTT R 0.2 R 0.7 R 0.3 RR 0.7 RR 0.20.350.150.10.40.150.35 0.3 < 0.350.1 < 0.15 TEMPORAL ORDER IS DECEPTIVE (c) Treatment Recovery T F R Car F R 0.6 Wrong 0.3

16 R 0.5 R 0.4 R 0.5 (c) TT R 0.6 0.5 > 0.4 Treatment Recovery T F R Car CORRECT DECISION TREE

17 0.3 0.6 Cheap 0.5 Expensive 0.5 TTTT R 0.2 R 0.7 R 0.3 RR 0.7 RR 0.20.350.150.10.40.150.35 0.6 = P(R | T,F)  P(R | do(T), F) WHAT WENT WRONG WITH F = Car ? (c) Treatment Recovery T F R Car F R 0.6 Wrong 0.3

18 0.6 Right 0.3 Female 0.5 Male 0.5 TTTT R R 0.2 R 0.7 R 0.3 RR 0.7 RR 0.20.350.150.10.40.150.35 T F Gender R (a) WHAT WENT RIGHT WITH F = Gender ? 0.6 = P(R | T,F) = P(R | do(T), F) F

19 Treatment Recovery T F R Car (c) Compelled Act Treatment Recovery T F R Car (c) Free Act THE PERCEPTION OF FREE WILL (Explained reaction)(Decision)

20 DISAMBIGUATING THE TWO ROLES OF ACT Whatever evidence an act might provide On motives that cause such acts, Should never be used to help one decide On whether to choose that same act. (p. 109)

21 Treatment Recovery T F R Car (c) Compelled Act Treatment Recovery T F R Car (c) Free Act THE PARADOX OF FREE WILL (Explained reaction)(Decision) God Physics

22 Free will is an illusion that demands a computational model, to explain: 1.What mental activity generates the illusion of acting freely? 2.Why/how is such illusion generated from the activity above? 3.How can we survive the distortion generated by the illusion? Is the distortion harmless? Is the illusion dispensable? 4.What is the computational usefulness of the illusion? COMPUTATIONAL RESOLUTION OF THE PARADOX OF FREE WILL

23 CONCLUSIONS 1.Simpson's Paradox is resolved through the calculus of causation. 2.People think causally, not probabilistically 3.Decision trees cannot replace causal models 4.Free-will is a software illusion to be explained in computational terms.

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