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FIN357 Li1 Binary Dependent Variables Chapter 12 P(y = 1|x) = G(  0 + x  )

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Presentation on theme: "FIN357 Li1 Binary Dependent Variables Chapter 12 P(y = 1|x) = G(  0 + x  )"— Presentation transcript:

1 FIN357 Li1 Binary Dependent Variables Chapter 12 P(y = 1|x) = G(  0 + x  )

2 FIN357 Li2 Binary Dependent Variables A linear probability model can be written as P(y = 1|x) =  0 + x  A drawback to the linear probability model is that predicted values are not constrained to be between 0 and 1 An alternative is to model the probability as a function, G(  0 + x  ), where 0<G(z)<1

3 FIN357 Li3 The Probit Model One choice for G(z) is the standard normal cumulative distribution function (cdf) G(z) =  (z) ≡ ∫  (v)dv, where  (z) is the standard normal, so  (z) = (2  ) -1/2 exp(-z 2 /2) This case is referred to as a probit model Since it is a nonlinear model, it cannot be estimated by our usual methods Use maximum likelihood estimation

4 FIN357 Li4 The Logit Model Another common choice for G(z) is the logistic function, which is the cdf for a standard logistic random variable G(z) = exp(z)/[1 + exp(z)] =  (z) This case is referred to as a logit model, or sometimes as a logistic regression Both functions have similar shapes – they are increasing in z, most quickly around 0

5 FIN357 Li5 Probits and Logits Both the probit and logit are nonlinear and require maximum likelihood estimation No real reason to prefer one over the other Traditionally saw more of the logit, mainly because the logistic function leads to a more easily computed model Today, probit is easy to compute with standard packages, so more popular

6 FIN357 Li6 Interpretation of Probits and Logits In general we care about the effect of x on P(y = 1|x), that is, we care about ∂p/ ∂x For the linear case, this is easily computed as the coefficient on x For the nonlinear probit and logit models, it’s more complicated: ∂p/ ∂x j = g(  0 +x  )  j, where g(z) is dG/dz

7 FIN357 Li7 For logit model ∂p/ ∂x j =  j exp(  0 +x  (1 + exp(  0 +x  ) ) 2 For Probit model: ∂p/ ∂x j =  j  (  0 +x  ) =  j (2  ) -1/2 exp(-(  0 +x  2 /2)

8 FIN357 Li8 Interpretation (continued) Can examine the sign and significance (based on a standard t test) of coefficients,

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