The TRANSREG Procedure
- Overview
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Getting Started
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Syntax
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DetailsModel Statement UsageBox-Cox TransformationsUsing Splines and KnotsScoring Spline VariablesLinear and Nonlinear Regression FunctionsSimultaneously Fitting Two Regression FunctionsPenalized B-SplinesSmoothing SplinesSmoothing Splines Changes and EnhancementsIteration History Changes and EnhancementsANOVA CodingsMissing ValuesMissing Values, UNTIE, and Hypothesis TestsControlling the Number of IterationsUsing the REITERATE Algorithm OptionAvoiding Constant TransformationsConstant VariablesCharacter OPSCORE VariablesConvergence and DegeneraciesImplicit and Explicit InterceptsPassive ObservationsPoint ModelsRedundancy AnalysisOptimal ScalingOPSCORE, MONOTONE, UNTIE, and LINEAR TransformationsSPLINE and MSPLINE TransformationsSpecifying the Number of KnotsSPLINE, BSPLINE, and PSPLINE ComparisonsHypothesis TestsOutput Data SetOUTTEST= Output Data SetComputational ResourcesUnbalanced ANOVA without CLASS VariablesHypothesis Tests for Simple Univariate ModelsHypothesis Tests with Monotonicity ConstraintsHypothesis Tests with Dependent Variable TransformationsHypothesis Tests with One-Way ANOVAUsing the DESIGN Output OptionDiscrete Choice Experiments: DESIGN, NORESTORE, NOZEROCenteringDisplayed OutputODS Table NamesODS Graphics
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Examples
- References
You can use the REITERATE a-option to perform additional iterations when PROC TRANSREG stops before the data have adequately converged. For example, suppose that you execute the following step:
proc transreg data=a; model mspline(y) = mspline(x1-x5); output out=b coefficients; run;
If the transformations do not converge in the default 30 iterations, you can perform more iterations without repeating the first 30 iterations, as follows:
proc transreg data=b reiterate; model mspline(y) = mspline(x1-x5); output out=b coefficients; run;
Note that a WHERE statement is not necessary to exclude the coefficient observations. They are automatically excluded because
their _TYPE_ value is not SCORE.
You can also use the REITERATE a-option to specify starting values other than the original values for the transformations. Providing alternate starting points might help avoid local optima. Here are two examples:
proc transreg data=a;
model rank(y) = rank(x1-x5);
output out=b;
run;
proc transreg data=b reiterate;
/* Use ranks as the starting point. */
model mspline(y) = mspline(x1-x5);
output out=c coefficients;
run;
data b;
set a;
array tx[6] ty tx1-tx5;
do j = 1 to 6;
tx[j] = normal(7);
end;
run;
proc transreg data=b reiterate;
/* Use a random starting point. */
model mspline(y) = mspline(x1-x5);
output out=c coefficients;
run;
Note that divergence with the REITERATE a-option, particularly in the second iteration, is not an error since the initial transformation is not required to be a valid member of the transformation family. When you specify the REITERATE a-option, the iteration does not terminate when the criterion change is negative during the first 10 iterations.