Hi @BenGengenbach,
I tried to generate a screening design with the aliase you specified.
If we "code" your factors (except block) with X1, X2, ..., that means you have this generator for the fractional factorial design : I = 1245.
However, the presence of the block is quite difficult to take into consideration, as we have to take care that it is not confounded with main effects or any other effects, which is a quite tricky task since the aliases are fixed here.
When trying to set up this generator in the generating rules, here is the configuration I have :
So here is an example of a design with the alias you defined (table attached):
DOE(
Screening Design,
{Add Response( Maximize, "Y", ., ., . ), Add Factor,
Add Factor( Continuous, 0, 100, "Imidazol conc.", 0 ),
Add Factor( Categorical, {"Yes", "No"}, "Perform dialysis in cartridge", 0 ),
Add Factor( Categorical, {"Homemade", "Readymixed"}, "Dialysis buffer", 0 ),
Add Factor( Continuous, 0, 100, "Covered surface in fridge", 0 ),
Add Factor( Continuous, 0, 100, "Centrifugation", 0 ),
Add Factor( Discrete Numeric, {0, 2}, "Concentration cycles", 0 ),
Set Random Seed( 1921021643 ), Make Design( 6 ),
Set Generators( [1 1 0 1, 1 1 0 1, 0 1 1 0, 1 0 1 0, 1 1 2 2, 0 0 0 0] ),
Simulate Responses( 0 ), Save X Matrix( 0 )}
)
But as suggested by @Mark_Bailey, I would also recommend a Custom Design, since you have different types of factors (categorical at 2-levels and continuous factors are accepted for DSD, but not the discrete numeric factor), it will be very easy to introduce a blocking factor if you have any constraints about the number of runs per day or any other blocking variable, and you can avoid having completely aliased effects in your design.
An example of a possible custom screening design with your factors could be :
DOE(
Custom Design,
{Add Response( Maximize, "Y", ., ., . ),
Add Factor( Continuous, 0, 100, "Imidazol conc.", 0 ),
Add Factor( Categorical, {"Yes", "No"}, "Perform dialysis in cartridge", 0 ),
Add Factor( Categorical, {"Homemade", "Readymixed"}, "Dialysis buffer", 0 ),
Add Factor( Continuous, 0, 100, "Covered surface in fridge", 0 ),
Add Factor( Continuous, 0, 100, "Centrifugation", 0 ),
Add Factor( Discrete Numeric, {0, 2}, "Concentration cycles", 0 ),
Add Factor( Blocking, 4, "Block" ), Set Random Seed( 2118942861 ),
Number of Starts( 1 ), Add Term( {1, 0} ), Add Term( {1, 1} ),
Add Term( {2, 1} ), Add Term( {3, 1} ), Add Term( {4, 1} ), Add Term( {5, 1} ),
Add Term( {6, 1} ), Add Term( {7, 1} ), Add Alias Term( {1, 1}, {2, 1} ),
Add Alias Term( {1, 1}, {3, 1} ), Add Alias Term( {1, 1}, {4, 1} ),
Add Alias Term( {1, 1}, {5, 1} ), Add Alias Term( {1, 1}, {6, 1} ),
Add Alias Term( {2, 1}, {3, 1} ), Add Alias Term( {2, 1}, {4, 1} ),
Add Alias Term( {2, 1}, {5, 1} ), Add Alias Term( {2, 1}, {6, 1} ),
Add Alias Term( {3, 1}, {4, 1} ), Add Alias Term( {3, 1}, {5, 1} ),
Add Alias Term( {3, 1}, {6, 1} ), Add Alias Term( {4, 1}, {5, 1} ),
Add Alias Term( {4, 1}, {6, 1} ), Add Alias Term( {5, 1}, {6, 1} ),
Set Sample Size( 16 ), Optimality Criterion( "Make A-Optimal Design" ),
"A-Optimality Parameter Weights"n( [1 1 1 1 1 1 1 1 1 1] ),
Simulate Responses( 0 ), Save X Matrix( 0 ), Make Design}
)
I hope this answer will help you,
Victor GUILLER
"It is not unusual for a well-designed experiment to analyze itself" (Box, Hunter and Hunter)