The LOGISTIC Procedure |
Linear Predictor, Predicted Probability, and Confidence Limits |
This section describes how predicted probabilities and confidence limits are calculated by using the maximum likelihood estimates (MLEs) obtained from PROC LOGISTIC. For a specific example, see the section Getting Started: LOGISTIC Procedure. Predicted probabilities and confidence limits can be output to a data set with the OUTPUT statement.
For a vector of explanatory variables , the linear predictor
is estimated by
where and are the MLEs of and . The estimated standard error of is , which can be computed as the square root of the quadratic form , where is the estimated covariance matrix of the parameter estimates. The asymptotic confidence interval for is given by
where is the percentile point of a standard normal distribution.
The predicted probability and the confidence limits for are obtained by back-transforming the corresponding measures for the linear predictor, as shown in the following table:
Link |
Predicted Probability |
100(1–)% Confidence Limits |
---|---|---|
LOGIT |
|
|
PROBIT |
|
|
CLOGLOG |
|
|
The CONTRAST statement also enables you to estimate the exponentiated contrast, . The corresponding standard error is , and the confidence limits are computed by exponentiating those for the linear predictor: .
For a vector of explanatory variables , define the linear predictors , and let denote the probability of obtaining the response value :
By the delta method,
A 100(1)% confidence level for is given by
where is the estimated expected probability of response , and is obtained by evaluating at .
Note that the contrast and exponentiated contrast , their standard errors, and their confidence intervals are computed in the same fashion as for the cumulative response models, replacing with .
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