One way of viewing covariates is as extra sources of variation in the dependent variable that can mask the variation due to primary factors. This example demonstrates the use of the COVAR= option in PROC RSREG to fit a response surface model to the dependent variables corrected for the covariates.
You have a chemical process with a yield that you hypothesize to be dependent on three factors: reaction time, reaction temperature, and reaction pressure. You perform an experiment to measure this dependence. You are willing to include up to 20 runs in your experiment, but you can perform no more than 8 runs on the same day, so the design for the experiment is composed of three blocks. Additionally, you know that the grade of raw material for the reaction has a significant impact on the yield. You have no control over this, but you keep track of it. The following statements create a SAS data set containing the results of the experiment:
data Experiment; input Day Grade Time Temp Pressure Yield; datalines; 1 67 -1 -1 -1 32.98 1 68 -1 1 1 47.04 1 70 1 -1 1 67.11 1 66 1 1 -1 26.94 1 74 0 0 0 103.22 1 68 0 0 0 42.94 2 75 -1 -1 1 122.93 2 69 -1 1 -1 62.97 2 70 1 -1 -1 72.96 2 71 1 1 1 94.93 2 72 0 0 0 93.11 2 74 0 0 0 112.97 3 69 1.633 0 0 78.88 3 67 -1.633 0 0 52.53 3 68 0 1.633 0 68.96 3 71 0 -1.633 0 92.56 3 70 0 0 1.633 88.99 3 72 0 0 -1.633 102.50 3 70 0 0 0 82.84 3 72 0 0 0 103.12 ;
Your first analysis neglects to take the covariates into account. The following statements use PROC RSREG to fit a response
surface to the observed yield, but note that Day
and Grade
are omitted:
proc rsreg data=Experiment; model Yield = Time Temp Pressure; run;
The ANOVA results shown in Output 99.2.1 indicate that no process variable effects are significantly larger than the background noise.
Output 99.2.1: Analysis of Variance Ignoring Covariates
However, when the yields are adjusted for covariate effects of day and grade of raw material, very strong process variable
effects are revealed. The following statements produce the ANOVA results in Output 99.2.2. Note that in order to include the effects of the classification factor Day
as covariates, you need to create dummy variables indicating each day separately.
data Experiment; set Experiment; d1 = (Day = 1); d2 = (Day = 2); d3 = (Day = 3);
ods graphics on; proc rsreg data=Experiment plots=all; model Yield = d1-d3 Grade Time Temp Pressure / covar=4; run; ods graphics off;
The results show very strong effects due to both the covariates and the process variables.
Output 99.2.2: Analysis of Variance Including Covariates
The number of observations in the data set might be too small for the diagnostic plots in Output 99.2.3 to dependably identify problems; however, some outliers are indicated. The residual plots in Output 99.2.4 do not display any obvious structure.
Output 99.2.3: Fit Diagnostics
Output 99.2.4: Residual Plots