The SURVEYLOGISTIC Procedure
- Overview
- Getting Started
-
Syntax
PROC SURVEYLOGISTIC StatementBY StatementCLASS StatementCLUSTER StatementCONTRAST StatementDOMAIN StatementEFFECT StatementESTIMATE StatementFREQ StatementLSMEANS StatementLSMESTIMATE StatementMODEL StatementOUTPUT StatementREPWEIGHTS StatementSLICE StatementSTORE StatementSTRATA StatementTEST StatementUNITS StatementWEIGHT Statement -
DetailsMissing ValuesModel SpecificationModel FittingSurvey Design InformationLogistic Regression Models and ParametersVariance EstimationDomain AnalysisHypothesis Testing and EstimationLinear Predictor, Predicted Probability, and Confidence LimitsOutput Data SetsDisplayed OutputODS Table NamesODS Graphics
-
Examples
- References
Generalized Coefficient of Determination
Cox and Snell (1989, pp. 208–209) propose the following generalization of the coefficient of determination to a more general linear model:
![\[ R^2 = 1 - \biggl \{ \frac{L(\mb {0})}{L(\hat{\btheta })}\biggr \} ^{\frac{2}{n}} \]](images/statug_surveylogistic0185.png){kind=small} |
where 
is the likelihood of the intercept-only model, 
is the likelihood of the specified model, and n is the sample size. The quantity 
achieves a maximum of less than 1 for discrete models, where the maximum is given by
![\[ R_{\max }^2 = 1 - \{ L(\mb {0})\} ^{\frac{2}{n}} \]](images/statug_surveylogistic0188.png){kind=small} |
Nagelkerke (1991) proposes the following adjusted coefficient, which can achieve a maximum value of 1:
![\[ \tilde{R}^2 = \frac{R^2}{R_{\max }^2} \]](images/statug_surveylogistic0189.png){kind=small} |
Properties and interpretation of and 
are provided in Nagelkerke (1991). In the “Testing Global Null Hypothesis: BETA=0” table, is labeled as “RSquare” and is labeled as “Max-rescaled RSquare.” Use the RSQUARE option to request and .