M12 - Logistic Regression Flashcards
Whats the idea of log regression?
When the dv is discrete (ctegorial, nominal, ordinal)
Types of discrete variables?
Dichotomous
–> binary log. regr
Ordinal
–> ordinal log. regre
Nominal
–> multinominal log. regr
Why does OLS make little sense for binary variables?
The dv is dichotomous
Classical OLS does not produce sensible values of the dv, which only takes on 0/1
What does logistic regression do?
Models the …. of y= … ( … ) and y = … ( …… ) for theory testing and forecasting
What does logistic regression do?
Models the % of y= 1 ( EVENT ) and y = 0 ( NO EVENT ) for theory testing and forecasting
1st step in log regr: logit coeff
Assumption
An unobservable / latent variable z generates the discrete values for the dv =’logit coeff’
- -> z depends on the iv
- -> the sum of the iv loads to y=1
2nd step in log regr: link function
Logit coeff gives no statement about %
- -> function is required that generates from z the probability od y=1
- -> generates p(y=1) from z
Assumption:
- non linear relship between % of y=1 and iv
- linear relship between z and iv
Whats saturation!
When z takes on extreme values, changes in x have littlfe effect
Horizontal shifts?
Beta0 only affects horizontal shifts
Beta0 > 0 –> to the left
Beta0 < 0 –> to the right
Stepness
A large beta1 implies, that with a variation in xj, extreme probability values are reached quickly
–> steep
Problem with maximum likelihood?
Maximum-Likelihood estimation
- corresponding to … in linear regression
- how?
Effect od changing x sepends on where you are
Annoying!
–> odds ratio
Not dependent on wheerw you are
- corresponding to OLS to estimate regression parameters (but does not aim at minimizing variance)
- selects coefficients that make the observed values most likely to occur
Interpretation of Metric Variables
- odds
- odds ratio
label in SPSS
- odds: the likelihood of an event occuring relative to the likelihood of an event not occuring
- odds ratio: “effect size” : how much do the odds (event occuring) increase/decrease when there is a unit change in the associated IV (OR = Odds after 1unit change/ original odds)
–> if >1, than as IV increases, th odds of the outcome occuring increases
–> if < 1, than as the predictor increases, the odds of the outcome occuring decreases
“the higher blabla, the lower the probability of blabla to occur”
–> statement about how many percentages can only marginal effects give
- SPSS: odds ratio : Exp(B)
When is the odds ratio equal to the ratio of the odds?
- xj has its original value + 1
- xj has its original value
Likelihood Ratio test
- alternative to…
- based on …
- the resulting statistic is based on …
- interpretation
- alternative to chi²
- based on maximum-likelihood test
- based on comparing observed frequencies with those predicted by the model
- also has a chi² distribution: look up critical values for the df: it is significant if the value is bigger than the critical value
Compare the full model with a null model (contains only const term)
–> chi^2 distributed
Marginal effects
- how?
- difference between …
- Obacht!
- set all variables equal to the mean and consider the marginal effects of xi on y
- difference between the p-values of Y=1 and Y=0
- Obacht: marginal value dpeends on the considered variable and on the values of other IV
