Probit regressions: Newey-West adjustment and pseudo R-squared?

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denden
denden el 24 de Feb. de 2014
Respondida: andres el 17 de Jun. de 2020
I am performing probit regressions using the glmfit code in conjunction with the probit link.
- Newey-West (1984) adjustment
In linear regressions it is common to adjust the standard errors following the procedure suggested by Newey and West. I have seen several papers on probit regressions that use the Newey-West adjustment and I would like to adjust my model as well.
Do you know how I could do this adjustment in Matlab for my probit model?
- Pseudo R-squared
One of the measures of goodness of fit is a pseudo R-squared as proposed by Estrella (1998).
Estrella R-squared = 1 - [ log L(u) / log L(c) ] ^ [ - (2 / n) * log L(c) ]
where L(u) is the maximized unconstrained log-likelihood value and L(c) the maximized constrained one (the null hypothesis says all coefficients except for the constant are equal to zero).
Theory suggests that the Estrella R-squared should not be negative in in-sample regressions (degrees of freedom etc.). However, I receive negative R-squareds which is why I assume that there might be something wrong with my distribution link and the parameters of this distribution.
I am using the following formula in Matlab (assumption: standard normal distribution):
LLU0 = sum(log(pdf('Normal',yhatU0,0,1))); %log likelihood (unrestricted)
LLR0 = sum(log(pdf('Normal',yhatR0,0,1))); %log likelihood (restricted)
Estrella0 = 1-(LLU0/LLR0)^(-(2/obsx)*LLR0);
Do you have any suggestions how I could fix this problem? How would the code look like in Matlab?
Thank you!

Respuestas (1)

andres
andres el 17 de Jun. de 2020
Hi. Did you figure this out finally? I'm dealing with the same situation now.
Thanks in advance!

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